International Conference on New Science Inventions

NEXT EVENT SESSION
27-28 DEC 2024

(Instant E-Certificate)

For Enquiries: nesinsupport@sciencefather.com

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About the Conference

Introduction of New Science Inventions conference

New Science Inventions conference organized by ScienceFather group. The International Conference on New Science Inventions represents an annual gathering of visionaries and thought leaders from across the globe who are united by their unwavering commitment to pushing the frontiers of human knowledge and innovation. This prestigious event serves as a vibrant showcase for groundbreaking scientific discoveries and inventions that have the potential to reshape industries, revolutionize technology, and address critical global challenges. More than just a platform for the exchange of ideas, it is a celebration of human ingenuity, curiosity, and collaboration. From captivating keynote addresses by world-renowned scientists to interactive workshops and presentations, the conference provides a unique opportunity for attendees to explore the latest advancements, engage in stimulating discussions, and forge meaningful connections with fellow innovators. As we convene at this remarkable intersection of science and inspiration, we invite you to be part of a transformative journey where the future is defined by the limitless possibilities of human invention.

Themes

Theme

"Exploring the Frontiers of Science and Technology"

Objectives

Objectives

  1. To provide a platform for experts and researchers to share their latest findings and advancements in science and technology.
  2. To foster cross-disciplinary collaboration and facilitate the exchange of ideas among participants from various fields.
  3. To highlight the most innovative and impactful ideas and projects in the field of science and technology.
  4. To create opportunities for networking and partnership-building among conference attendees.
  5. To engage the public and raise awareness about the latest developments in science and technology and their potential impact on society.

Organizers

Organizers

Science Father is a international conferencesĀ  organizer and publish the videos, books and news in various themes of scientific research. Articles Presented in our conference are Peer Reviewed. We build the perfect environment for learning, sharing, networking and Awarding via Academic conferences, workshops, symposiums, seminars, awards and other events. We establish our Relationship with the scholars and the Universities through various activities such as seminars, workshops, conferences and Symposium. We are a decisive, conclusive & fast-moving company open to new ideas and ingenious publishing. We also preserve the long-term relationships with our authors and supporting them throughout their careers. We acquire, develop and distribute knowledge by disseminating scholarly and professional materials around the world. AllĀ  conference and award presentations are maintain the highest standards of quality, with Editorial Boards composed of scholars & Experts from around the world.

Date and location

Date and location

International Conference on New Science Inventions, Organized by ScienceFather group

27th Edition of International Conference on New Science Inventions| 27-28 December 2024 | Dubai, United Arab Emirates

28th Edition of International Conference on New Science Inventions | 27-28 January 2025 | Amsterdam, Netherlands

29th Edition of International Conference on New Science Inventions | 26-27 February 2025 | London, United Kingdom

30th Edition of International Conference on New Science Inventions | 28-29 March 2025 | San Francisco, United States

31st Edition of International Conference on New Science Inventions | 25-26 April 2025 | Berlin, Germany

32nd Edition of International Conference on New Science Inventions | 30-31 May 2025 | Paris, France

33rd Edition of International Conference on New Science Inventions | 25-26 June 2025 | Dubai, United Arab Emirates

34th Edition of International Conference on New Science Inventions | 29-30 July 2025 | New Delhi, India

35th Edition of International Conference on New Science Inventions | 28-29 August 2025 | Berlin, Germany

36th Edition of International Conference on New Science Inventions | 26-27 September 2025 | Mumbai, India

37th Edition of International Conference on New Science Inventions | 27-28 October 2025 | Paris, France

38th Edition of International Conference on New Science Inventions | 28-29 November 2025 | Agra, India

39th Edition of International Conference on New Science Inventions | 29-30 December 2025 | Dubai, United Arab Emirates

Call for paper

Call for Abstract/paper

Original Articles/papers are invited from Industry Persons, Scientist, Academician, Research Scholars, P.G. & U.G. Students for presentation in our International Conference. All articles/papers must be in MS-Word (.doc or .docx) format, including the title, author's name, an affiliation of all authors, e-mail, abstract, keywords, Conclusion, Acknowledgment, and References.

SubmitĀ Abstract

The Candidates with eligibility can click the "Submit Paper/Abstract Now" button and fill up the online submission form and Submit.

Abstract/Full Paper submission

Final/Full Paper submission is optional: If you don't want your abstract/full paper to be published in the Conference Abstracts & Proceedings CD (with ISBN number) and only want to present it at the conference, it is acceptable.

Page limit: There is a limit of 6-8 pages for a final/full paper. An additional page is chargeable.

Paper language: Final/Full papers should be in English.

Templates: "Final paper template," "Final abstract template"

All the final papers should be uploaded to the website online system according to "The final paper template" as word doc. Or Docx, since this will be the camera-ready published version. Please note that final papers that are not uploaded to online System as a word doc./docx after the opening of final paper submissions according to the template above will not be published in the CONFERENCE Abstracts & Proceedings CD (with ISBN)

Journal Publication

Journal Publication

All accepted papers will be included in the conference proceedings, which will be recommended in one of the authors prescribed ScienceFather International journals.

Registration

Registration Procedure

  • Click the ā€œRegister Nowā€ button at the conference page and enter your Submission ID in the Search Box
  • Your Submissions will be listed on that page. You can find the Register Now link beside your submission. Click the link, and now you will be redirected to the Conference registration form where you can make your registration using credit/debit cards.
  • The Fee charged for E-Poster is to display the E-Posters only on the Website. The Abstract will be published in the conference proceeding book.

Registration Types

Speaker Registration

  • Access to all event Session
  • Certificate of Presentation
  • Handbook
  • Conference Kit
  • Tea, Coffee & Snack,
  • Lunch during the Conference
  • Publication of Abstract /Full Paper at the Conference Proceedings Book
  • Opportunity to give a Keynote/ Poster Presentations/ Plenary/ Workshop
  • Opportunity to publish your Abstract in any of our esteemed Journals discounted rate
  • Opportunity to publish your full article in our open access book with a discounted rate
  • One to One Expert Forums

Delegate (Participant) Registration

  • Access to all Event Sessions
  • Participation Certificate
  • Handbook
  • Conference Kit
  • Tea, Coffee & Snack,
  • Lunch during the Conference
  • Delegates are not allowed to present

Poster Registration

  • Includes all the above Registration Benefits
  • You will have to bring your Posters to the Conference Venue
  • Best poster award memento and certificate on stage.

Poster Guidelines

  • The poster should be 1Ɨ1 m Size.
  • The title, contents, text, and the authorā€™s information should be visible.
  • Present numerical data in the form of graphs rather than tables.
  • Figures make trends in the data much more evident.
  • Avoid submitting high word-count posters.
  • Poster contains, e.g., Introduction, Methods, Results, Discussion, Conclusions, and Literature.

Research Forum (Awards)

  • Includes all the above Registration Benefits.
  • The attendee should be required age limit.
  • Award memento and certificate on stage.

E-Poster Presentation

  • The amount charged for E-Posters is to display the E-Posters only on the website
  • The presenter will get an e-poster participation certificate as a soft copy
  • The abstract will be published in the particular journal and also in the conference proceeding book
  • The presenter is not required to be present in person at the Conference

Video Presentation

  • The amount charged for Video Presentation is to display the Presentation at the Conference.
  • The presenter will get Video participation certificate as a soft copy
  • The abstract will be published in the particular journal and also in the conference proceeding book
  • The presenter is not required to be present in person at the Conference

Accompanying Person

  • Accompanying Persons attend the participants at the Conference who may be either a spouse/family partner or a son/daughter and must register under this category.
  • Please note that business partners do not qualify as Accompanying Persons and cannot register as an Accompanying Person.

Committee Members

List of Committee Members

TitleFirst NameLast NameInstitution/OrganizationCountry
DrPratikGaikwadMumbai Veterinary College, Parel, Mumbai ā€“ 400012, Maharashtra, IndiaIndia
DrMulugetaHabteArba Minch UniversityEthiopia
ProfSakarieMustafe HidigZhejiang University School of MedicineChina
DrYaoNiGuangdong University of TechnologyChina
MrSathiyandrakumarSrinivasanV2 Technologies IncUnited States
DrPuvvadiBaby MaruthiDayananda Sagar UniversityIndia
DrKrishnaveniRSREE SEVUGAN ANNAMALAI COLLEGE, DEVAKOTTAIIndia
DrRajeshSinghIIT Jammu, J&K, IndiaIndia
DrNavidAbedpoorIslamic Azad University, Isfahan (Khorasgan) BranchIran
DrRahulSomalwarBajaj Institute of Technology Wardha IndiaIndia
Assist Prof DrMuntazirHussainAir University IslamabadPakistan
DrNeerajDwivediCSIR-Advanced Materials and Processes Research InstituteIndia
DrSamiRtimiGlobal Institute for Water, Environment and HealthSwitzerland
Assist Prof DrBehnamSeyyediUrmia University, Faculty of Engineering, Departement of Materials EngineeringIran
DrDiwakarTripathiS.S. Maniar College of Computer & Management, NagpurIndia
DrSanjay KumarPatelDr. Rajendra Prasad Central Agricultural University, PusaIndia
ProfHouyongYuZhejiang Sci-Tech UniversityChina
ProfHouyongYuZhejiang Sci-Tech UniversityChina
DrSamuelAweAutomotive Components Floby ABSweden
DrAkashdeepBhardwajUniversity of Petroleum and Energy StudiesIndia
DrArunKumarIndian Institute of Technology (BHU)India
MrBabuBAMRITA COLLEGE OF ENGINEERING AND TECHNOLOGYIndia
MsBENAZIRCHISHTIJAMIA MILLIA ISLAMIAIndia
Assist Prof DrSubrataSinhaDibrugarh UniversityIndia
TitleFirst NameLast NameInstitution/OrganizationCountry

Conference Awards

Details of Conference Awards

Sciencefather awards the Researchers and Research organizations around the world in the motive of Encouraging and Honouring them for their Significant contributions & Achievements for the Advancement in their field of expertise. Researchers and scholars of all nationalities are eligible to receive Sciencefather Research awards. Nominees are judged on past accomplishments, research excellence, and outstanding academic achievements.

Award Categories

Best Poster Award

Posters will be evaluated based on Presentation Style, Research Quality, and Layout/Design. Unique opportunity to combine visual and oral explanations of your projects in the form of poster presentation. Posters should have the Title (with authors affiliation & contact details), Introduction, Methods, Results (with tables, graphs, pictures), Discussion, Conclusion, References, and Acknowledgements. The size of the poster should be: 1mX1.5m; Text:16-26 pt; Headings: 32-50 pt; Title: 70 pt; Color: Preferable. Bring your poster to the meeting, using tubular packaging and presenting duration: 10 min discussion & 5 min query per person.Ā Eligibility: The presenter can nominate for the Award. He must be under 40 years of age as on the conference date.

Best Presentation Award

The presentation will be evaluated based on Presentation Style, Research Quality, and Layout/Design. Unique opportunity to combine visual and oral explanations of your projects in the form of poster presentation. The presentation should have the Title (with authors affiliation & contact details), Introduction, Methods, Results (with tables, graphs, pictures), Discussion, Conclusion, References, and Acknowledgements. Bring your presentation to the meeting, using a pen drive, presenting duration: 10-20 min discussion & 5 min query per person.Ā Eligibility:Ā The presenter can nominate for the Award. He must be under 55 years of age as on the conference date.

Best Paper Award

Paper will be evaluated based on Format, Research Quality, and Layout/Design. The paper should have the Title (with authors affiliation & contact details), Introduction, Methods, Results (with tables, graphs, pictures), Discussion, Conclusion, References, and Acknowledgements.Ā Eligibility:Ā The presenter can nominate for the Award. He must be under 55 years of age as on the conference date.

Instructions

Instructions for submission

If you want to submit only your Abstract

  • If you want to publish only your abstract (it is also optional) in the CONFERENCE Abstracts & Proceedings CD (with ISBN), upload your abstract again according to the Final abstract templateĀ as word doc. Or Docx.
  • If you also don't want your abstract to be published in the CONFERENCE Abstracts & Proceedings CD (with an ISBN) and only want to present it at the conference, it is also acceptable.

How to Submit your Abstract / Full Paper

Please read the instructions below then submit your Abstract/ Full Paper (or just final abstract) via online conference system:

  • STEP 1: Please download the Abstract /Final Paper Template and submit your final paper strictly according to the template: New Science Inventions ConferenceĀ Final Paper TemplateĀ in word format (.doc /.docx). See aĀ Ffinal abstract templateĀ formatted according to the template.
  • STEP 2: Please ensure that the Abstract/ full paper follows exactly the format and template described in the final paper template document below since this will be the camera-ready published version. All last articles should be written only in English and "word document" as .doc or .docx.
  • STEP 3: You can submit your final paper(s) to the online conference system only by uploading/ Re-submission your current submission.
  • STEP 4: After logging/using submission ID in the online conference system, click on "Re-submission" link at the bottom of the page.
  • STEP 5: After the Resubmission page opens, upload your abstract/ final paper (it should be MS word document -doc. or Docx-).

General Information

  • Dress Code: Participants have to wear a formal dress. There are no restrictions on color or design. The audience attending only the ceremony can wear clothing of their own choice.
  • Certificate Distribution: Each presenter's name will be called & asked to collect their certificate on the Stage with an official photographer to capture the moments.

Terms & Conditions

ScienceFather Terms & Conditions

New Science Inventions Conference Terms & Conditions Policy was last updated on June 25, 2022.

Privacy Policy

New Science Inventions conferences customer personal information for our legitimate business purposes, process and respond to inquiries, and provide our services, to manage our relationship with editors, authors, institutional clients, service providers, and other business contacts, to market our services and subscription management. We do not sell, rent/ trade your personal information to third parties.

Relationship

New Science Inventions Conference Operate a Customer Association Management and email list program, which we use to inform customers and other contacts about our services, including our publications and events. Such marketing messages may contain tracking technologies to track subscriber activity relating to engagement, demographics, and other data and build subscriber profiles.

Disclaimer

New Science Invention conference All editorial matter published on this website represents the authors' opinions and not necessarily those of the Publisher with the publications. Statements and opinions expressed do not represent the official policies of the relevant Associations unless so stated. Every effort has been made to ensure the accuracy of the material that appears on this website. Please ignore, however, that some errors may occur.

Responsibility

New Science Inventions conferences. Delegates are personally responsible for their belongings at the venue. The Organizers will not be held accountable for any stolen or missing items belonging to Delegates, Speakers, or Attendees; due to any reason whatsoever.

Insurance

New Science Inventions conferences Registration fees do not include insurance of any kind.

Press and Media

Press permission must be obtained from the New Science Inventions conferences Organizing Committee before the event. The press will not quote speakers or delegates unless they have obtained their approval in writing. This conference is not associated with any commercial meeting company.

Transportation

New Science Inventions Conferences Please note that any (or) all traffic and parking is the registrant's responsibility.

Requesting an Invitation Letter

New Science Inventions Conferences For security purposes, the invitation letter will be sent only to those who had registered for the conference. Once your registration is complete, please contact nesinsupport@sciencefather.com Ā to request a personalized letter of invitation.

Cancellation Policy

If New Science Inventions Conferences cancels this event, you will receive a credit for 100% of the registration fee paid. You may use this credit for another New Science Inventions Conferences event, which must occur within one year from the cancellation date.

Postponement Policy

Suppose New Science Inventions Conferences postpones an event for any reason and you are unable or indisposed to attend on rescheduled dates. In that case, you will receive a credit for 100% of the registration fee paid. You may use this credit for another New Science Inventions Conferences, which must occur within one year from the date of postponement.

Transfer of registration

New Science Inventions Conferences All fully paid registrations are transferable to other persons from the same organization if the registered person is unable to attend the event. The registered person must make transfers in writing to nesinsupport@sciencefather.com .Ā Details must include the full name of an alternative person, their title, contact phone number, and email address. All other registration details will be assigned to the new person unless otherwise specified. Registration can be transferred to one conference to another conference ofĀ ScienceFatherĀ if the person cannot attend one of the meetings. However, Registration cannot be transferred if it will be intimated within 14 days of the particular conference. The transferred registrations will not be eligible for Refund.

Visa Information

New Science Inventions Conferences Keeping given increased security measures, we would like to request all the participants to apply for Visa as soon as possible.Ā ScienceFatherĀ will not directly contact embassies and consulates on behalf of visa applicants. All delegates or invitees should apply for Business Visa only. Important note for failed visa applications: Visa issues cannot come under the consideration of the cancellation policy ofĀ ScienceFather, including the inability to obtain a visa.

Refund Policy

New Science Inventions Conferences Regarding refunds, all bank charges will be for the registrant's account. All cancellations or modifications of registration must make in writing to nesin@sciencefather.com

If the registrant is unable to attend and is not in a position to transfer his/her participation to another person or event, then the following refund arrangements apply:

Keeping given advance payments towards Venue, Printing, Shipping, Hotels and other overheads, we had to keep Refund Policy is as following conditions,

  • Before 60 days of the Conference: Eligible for Full Refund less $100 Service Fee
  • Within 60-30 days of Conference: Eligible for 50% of payment Refund
  • Within 30 days of Conference: Not eligible for Refund
  • E-Poster Payments will not be refunded.

Ā Accommodation Cancellation Policy

New Science Inventions Conferences Accommodation Providers such as hotels have their cancellation policies, and they generally apply when cancellations are made less than 30 days before arrival. Please contact us as soon as possible if you wish to cancel or amend your accommodation.Ā ScienceFatherĀ will advise your accommodation provider's cancellation policy before withdrawing or changing your booking to ensure you are fully aware of any non-refundable deposits.

Our Authorisation Policy

By registering for the event, award and conference, you grant ScienceFather permission to photograph, film, record, and use your name, likeness, image, voice, and comments. These materials may be published, reproduced, exhibited, distributed, broadcasted, edited, and/or digitized in publications, advertising materials, or any other form worldwide without compensation. Please note that the taking of photographs and/or videotaping during any session is prohibited. If you have any queries, please feel free to contact us.

Sponsorship

Sponsorship Details

New Science Inventions Conferences warmly invite you to sponsor or exhibit of International Conference. We expect participants more than 200 numbers for our International conference will provide an opportunity to hear and meet/ads to Researchers, Practitioners, and Business Professionals to share expertise, foster collaborations, and assess rising innovations across the world in the core area of mechanical engineering.

Diamond Sponsorship

  1. Acknowledgment during the opening of the conference
  2. Complimentary Booth of size 10 meters square
  3. Four (4) delegateā€™s complimentary registrations with lunch
  4. Include marketing document in the delegate pack
  5. Logo on Conference website, Banners, Backdrop, and conference proceedings
  6. One exhibition stand (1Ɨ1 meters) for the conference
  7. One full cover page size ad in conference proceedings
  8. Opportunities for Short speech at events
  9. Option to sponsors conference kit
  10. Opportunity to sponsors conference lanyards, ID cards
  11. Opportunity to sponsors conference lunch
  12. Recognition in video ads
  13. 150-word company profile and contact details in the delegate pack

Platinum Sponsorship

  1. Three (3) delegateā€™s complimentary registrations with lunch
  2. Recognition in video ads
  3. Opportunity to sponsors conference lunch
  4. Opportunity to sponsors conference lanyards, ID cards
  5. Opportunity to sponsors conference kit
  6. Opportunity for Short speech at events
  7. One full-page size ad in conference proceedings
  8. One exhibition stand (1Ɨ1 meters) for the conference
  9. Logo on Conference website, Banners, Backdrop, and conference proceedings
  10. Include marketing document in the delegate pack
  11. Complimentary Booth of size 10 meters square
  12. Acknowledgment during the opening of the conference
  13. 100-word company profile and contact details in the delegate pack

Gold Sponsorship

  1. Two (2) delegateā€™s complimentary registrations with lunch
  2. Opportunities for Short speech at events
  3. Logo on Conference website, Banners, Backdrop, and conference proceedings
  4. Include marketing document in the delegate pack
  5. Complimentary Booth of size 10 meters square
  6. Acknowledgment during the opening of the conference
  7. 100-word company profile and contact details in the delegate pack
  8. Ā½ page size ad in conference proceedings

Silver Sponsorship

  1. Acknowledgment during the opening of the conference
  2. One(1) delegateā€™s complimentary registrations with lunch
  3. Include marketing document in the delegate pack
  4. Logo on Conference website, Banners, Backdrop, and conference proceedings
  5. Ā¼ page size ad in conference proceedings
  6. 100-word company profile and contact details in the delegate pack

Individual Sponsorship

  1. Acknowledgment during the opening of the conference
  2. One(1) delegateā€™s complimentary registrations with lunch

Registration Fees

Details Registration fees
Diamond Sponsorship USD 2999
Platinum Sponsorship USD 2499
Gold Sponsorship USD 1999
Silver Sponsorship USD 1499
Individual Sponsorship USD 999

Exhibitions

Exhibitions Details

Exhibit your Products & Services

Exhibit your Products & Services in New Science Inventions Conferences. Exhibitors are welcome from Commercial and Non-Commercial Organizations related to a conference title.

  • The best platform to develop new partnerships & collaborations.
  • Best location to speed up your route into every territory in the World.
  • Our exhibitor booths were visited 4-5 times by 80% of the attendees during the conference.
  • Network development with both Academia and Business.

Exhibitor Benefits

  • Exhibit booth of Size-3X3 sqm.
  • Promotion of your logo/Company Name/Brand Name through the conference website.
  • Promotional video on company products during the conference (Post session and Breaks).
  • Logo recognition in the Scientific program, Conference banner, and flyer.
  • One A4 flyer inserts in the conference kit.
  • An opportunity to sponsor 1 Poster Presentation Award.

Session Tracks

Conference Session Track

Agricultural and Biological SciencesĀ |Ā Arts and HumanitiesĀ |Ā BiochemistryĀ |Ā Genetics and Molecular BiologyĀ |Ā BusinessĀ |Ā Management and AccountingĀ |Ā Chemical EngineeringĀ |Ā ChemistryĀ |Ā Computer ScienceĀ |Ā Decision SciencesĀ | Earth andĀ Planetary SciencesĀ |Ā EconomicsĀ |Ā Econometrics, and Finance|Ā EnergyĀ |Ā EngineeringĀ |Ā Environmental ScienceĀ |Ā Immunology and MicrobiologyĀ | Materials ScienceĀ |Ā MathematicsĀ |Ā Medicine and DentistryĀ |Ā NeuroscienceĀ |Ā Nursing and Health ProfessionsĀ |Ā PharmacologyĀ |Ā Toxicology and Pharmaceutical ScienceĀ |Ā Physics and AstronomyĀ |Ā PsychologyĀ |Ā Social

 

Details of subject tracks

Details of subject tracks

1. Agricultural and Biological Sciences

If the focus of the International Conference on New Science Inventions is on Agricultural and Biological Sciences, the target audience could include:

  1. Agricultural and biological scientists
  2. Researchers and faculty from universities and research institutions
  3. Agricultural and biological engineers and technologists
  4. Plant and animal breeders and geneticists
  5. Environmental scientists and ecologists
  6. Soil and water resource management specialists
  7. Representatives from government agencies and non-governmental organizations involved in agriculture and the environment
  8. Business professionals involved in agri-biotech and agri-business
  9. Investors and venture capitalists interested in funding agricultural and biological science innovations
  10. Students and postdoctoral fellows in agriculture, biology and related fields.

The conference could focus on a wide range of topics, including but not limited to, advances in crop and animal breeding, precision agriculture, sustainable agriculture, soil and water management, agri-biotechnology, food security, and the impact of climate change on agriculture and the environment. The objective of the conference would be to provide a platform for exchanging ideas and knowledge, and for identifying opportunities for collaboration and investment in the field of agricultural and biological sciences.

2. Arts and Humanities

If the focus of the International Conference on New Science Inventions is on Arts and Humanities, the target audience could include:

  1. Scholars and researchers in the arts and humanities
  2. Faculty members from universities and research institutions
  3. Artists and creative professionals
  4. Technologists and engineers interested in the intersection of technology and the arts
  5. Museum curators and cultural heritage professionals
  6. Representatives from government agencies and non-profit organizations involved in cultural preservation and promotion
  7. Business professionals involved in the arts and creative industries
  8. Students and postdoctoral fellows in arts, humanities, and related fields
  9. Critics and art/culture journalists
  10. Investors and philanthropists interested in supporting innovation in the arts and humanities.

The conference could focus on a wide range of topics, including but not limited to, the use of technology in the arts, digital humanities, interdisciplinary approaches to the arts and humanities, the role of the arts in society and culture, and the preservation of cultural heritage. The objective of the conference would be to provide a platform for exchanging ideas and knowledge, and for identifying opportunities for collaboration and investment in the field of arts and humanities.

3. Biochemistry

If the focus of the International Conference on New Science Inventions is on Biochemistry, the target audience could include:

  1. Biochemists and molecular biologists
  2. Researchers and faculty members from universities and research institutions
  3. Medical and healthcare professionals
  4. Scientists and engineers from biotechnology and pharmaceutical companies
  5. Students and postdoctoral fellows in biochemistry and related fields
  6. Investors and venture capitalists interested in funding biotechnology innovations
  7. Representatives from government agencies and non-profit organizations involved in biotechnology and healthcare
  8. Business professionals involved in the biotechnology and pharmaceutical industries
  9. Critics and journalists writing about biochemistry and biotechnology.

The conference could focus on a wide range of topics, including but not limited to, advances in molecular biology, protein science, structural biology, metabolic pathways, systems biology, and biotechnology applications. The objective of the conference would be to provide a platform for exchanging ideas and knowledge, and for identifying opportunities for collaboration and investment in the field of biochemistry.

4. Genetics and Molecular Biology

If the focus of the International Conference on New Science Inventions is on Genetics and Molecular Biology, the target audience could include:

  1. Geneticists and molecular biologists
  2. Researchers and faculty members from universities and research institutions
  3. Medical and healthcare professionals
  4. Scientists and engineers from biotechnology and pharmaceutical companies
  5. Students and postdoctoral fellows in genetics, molecular biology and related fields
  6. Investors and venture capitalists interested in funding biotechnology innovations
  7. Representatives from government agencies and non-profit organizations involved in biotechnology and healthcare
  8. Business professionals involved in the biotechnology and pharmaceutical industries
  9. Critics and journalists writing about genetics and molecular biology.

The conference could focus on a wide range of topics, including but not limited to, advances in genetic engineering, genomics, genetics, gene regulation, DNA repair, and biotechnology applications. The objective of the conference would be to provide a platform for exchanging ideas and knowledge, and for identifying opportunities for collaboration and investment in the field of genetics and molecular biology.

5. BusinessĀ 

If the focus of the International Conference on New Science Inventions is on Business, the target audience could include:

  1. Business professionals, including executives, managers, and entrepreneurs
  2. Investors and venture capitalists
  3. Representatives from government agencies and non-profit organizations involved in innovation and entrepreneurship
  4. Faculty members from universities and business schools
  5. Economists and business strategists
  6. Legal and intellectual property specialists
  7. Science and technology commercialization professionals
  8. Business development and marketing experts
  9. Students and postdoctoral fellows in business and related fields
  10. Critics and journalists writing about business and innovation.

The conference could focus on a wide range of topics, including but not limited to, innovation management, technology commercialization, entrepreneurship, venture capital, intellectual property, and the intersection of business and science. The objective of the conference would be to provide a platform for exchanging ideas and knowledge, and for identifying opportunities for collaboration and investment in the field of business and innovation.

6. Management and Accounting

If the focus of the International Conference on New Science Inventions is on Management and Accounting, the target audience could include:

  1. Business professionals, including executives, managers, and entrepreneurs
  2. Investors and venture capitalists
  3. Representatives from government agencies and non-profit organizations involved in innovation and entrepreneurship
  4. Faculty members from universities and business schools
  5. Management consultants and strategists
  6. Accountants and financial analysts
  7. Legal and intellectual property specialists
  8. Science and technology commercialization professionals
  9. Students and postdoctoral fellows in business and related fields
  10. Critics and journalists writing about business and innovation.

The conference could focus on a wide range of topics, including but not limited to, innovation management, technology commercialization, entrepreneurship, venture capital, intellectual property, and the intersection of business and science. The objective of the conference would be to provide a platform for exchanging ideas and knowledge, and for identifying opportunities for collaboration and investment in the field of business and innovation.

In addition, specific to management and accounting, the conference could also explore topics such as strategic planning, risk management, performance measurement and evaluation, financial management, and accounting for new and emerging technologies.

7. Chemical Engineering

If the focus of the International Conference on New Science Inventions is on Chemical Engineering, the target audience could include:

  1. Chemical engineers
  2. Researchers and faculty members from universities and research institutions
  3. Scientists and engineers from chemical, petrochemical, and pharmaceutical companies
  4. Students and postdoctoral fellows in chemical engineering and related fields
  5. Investors and venture capitalists interested in funding innovations in chemical engineering
  6. Representatives from government agencies and non-profit organizations involved in chemical engineering and environmental sustainability
  7. Business professionals involved in the chemical and energy industries
  8. Critics and journalists writing about chemical engineering and related topics.

The conference could focus on a wide range of topics, including but not limited to, process design, optimization, and control, chemical reaction engineering, process safety and sustainability, energy efficiency, materials science, and bioprocess engineering. The objective of the conference would be to provide a platform for exchanging ideas and knowledge, and for identifying opportunities for collaboration and investment in the field of chemical engineering.

8. ChemistryĀ 

The International Conference on New Science Inventions - Chemistry is a forum for researchers and scientists to present and discuss their latest findings, innovations, and advancements in the field of chemistry. The conference typically includes plenary talks by invited speakers, poster presentations, and panel discussions on current topics and future trends in chemistry. The conference aims to provide a platform for exchange of ideas and collaboration among scientists from different countries, and to promote interdisciplinary research in the field of chemistry.

The conference may cover a wide range of topics in chemistry, including analytical chemistry, organic chemistry, physical chemistry, biochemistry, computational chemistry, green chemistry, and materials chemistry, among others. Participants will have the opportunity to hear about cutting-edge research and development in the field, and to network with other scientists, researchers, and industry professionals.

Whether you are a researcher, scientist, student, or industry professional, the International Conference on New Science Inventions - Chemistry is an excellent opportunity to stay up-to-date on the latest advancements and developments in the field, and to make new connections with other professionals in the field.

9. Computer Science

The International Conference on New Science Inventions- Computer Science is a forum for experimenters, scientists, and interpreters to present and bandy their rearmost findings, inventions, and advancements in the field of computer wisdom. The conference generally includes keynote speeches, specialized sessions, bill donations, and panel conversations on a wide range of motifs related to computer wisdom. The conference provides an occasion for attendees to learn about slice- edge exploration, exchange ideas with leading experts in the field, and network with other professionals from around the world.
The conference may cover colorful motifs in computer wisdom, including artificial intelligence, machine literacy, data wisdom, computer plates, computer vision, mortal- computer commerce, software engineering, and more. Attendees can anticipate to hear about the rearmost developments in these areas and have the occasion to share in conversations and debates about the unborn direction of computer wisdom exploration.
Whether you're a computer wisdom experimenter, scientist, pupil, or guru, the International Conference on New Science Inventions- Computer Science is a precious occasion to stay over- to- date on the rearmost advancements and developments in the field, and to make new connections with other professionals in the field

10. Decision Sciences

The International Conference on New Science Inventions- Decision lores is a forum for experimenters, interpreters, and scholars to present and bandy their rearmost findings, inventions, and advancements in the field of decision lores.
The conference generally includes keynote speeches, specialized sessions, bill donations, and panel conversations on a wide range of motifs related to decision lores. The conference provides an occasion for attendees to learn about slice- edge exploration, exchange ideas with leading experts in the field, and network with other professionals from around the world.
The conference may cover colorful motifs in decision lores, including operations exploration, operation wisdom, artificial engineering, data analytics, fine modeling, and more. Attendees can anticipate to hear about the rearmost developments in these areas and have the occasion to share in conversations and debates about the unborn direction of decision lores exploration.
Whether you're a experimenter, guru, or pupil in decision lores, the International Conference on New Science Inventions- Decision lores is a precious occasion to stay over- to- date on the rearmost advancements and developments in the field, and to make new connections with other professionals in the field.

11.Earth and Planetary SciencesĀ 

Earth and planetary science is a broad and interdisciplinary field that encompasses the study of the Earth, other planets in our solar system, and the processes that have shaped and continue to shape our planet and the universe. Earth and planetary scientists use a variety of tools and techniques, including observational, experimental, and computational methods, to better understand the Earth's structure, composition, and evolution.

The following are some of the topics that are typically covered in the field of Earth and planetary science:

  • Geology: the study of the Earth's structure, composition, and evolution, including plate tectonics, earthquakes, volcanoes, and rock formations.
  • Geophysics: the study of the Earth's physical properties, including its magnetic, gravitational, and electrical fields, as well as its seismic and geothermal activity.
  • Geochemistry: the study of the chemical composition and processes of the Earth and other planetary bodies.
  • Climatology: the study of Earth's climate and the factors that influence it, including solar radiation, atmospheric composition, and ocean currents.
  • Oceanography: the study of the world's oceans, including their physical, chemical, and biological properties, and the processes that govern them.
  • Planetary science: the study of other planets in our solar system, including their structure, composition, and evolution, and the processes that shape them.
  • Astrobiology: the study of the origin, evolution, and distribution of life in the universe, including the search for life on other planets.

Earth and planetary science is an important field with numerous practical applications, including natural resource exploration, disaster prediction and response, and the study of global climate change and its impacts.

12. EconomicsĀ 

Economics is the socialĀ  wisdom that studies theĀ  product, distribution, exchange, and consumption of goods and services. It deals with theĀ  colorful factors thatĀ  impact the frugality,Ā  similar asĀ  force and demand, affectation,Ā  request structures, and governmentĀ  programs.

There are two main branches of economics microeconomics and macroeconomics. Microeconomics studies theĀ  profitableĀ  geste of Ā individualities,Ā  enterprises, andĀ  diligence and how they interact in specificĀ  requests. Macroeconomics, on the other hand, looks at the overall performance of the frugality,Ā  similar asĀ  profitable growth, severance, and affectation.

Economics plays aĀ  pivotalĀ  part in helpingĀ  individualities, businesses, and governments make informedĀ  opinions byĀ  furnishing a methodicalĀ  way ofĀ  assaying the choices they face and the consequences of those choices. By studying economics, people can more understand how the frugality works, how to make theĀ  utmost of scarceĀ  coffers, and how to promoteĀ  profitable growth and stability.

13. Economics, and Finance

Econometrics is a branch of economics that uses statistical andĀ  fineĀ  styles toĀ  dissectĀ  profitable data and testĀ  profitableĀ  propositions. It involves the development of statistical models that can be used toĀ  prognosticateĀ  profitable trends and make informedĀ  opinions grounded onĀ  profitable data.

Finance, on the other hand, is the study of howĀ  individualities and associations manage theirĀ  fiscalĀ  coffers. It involves the analysis ofĀ  fiscalĀ  requests and institutions, investment and portfolioĀ  operation, and the valuation ofĀ  fiscalĀ  means.

Econometrics and finance are interrelated fields thatĀ  frequently lap. ForĀ  illustration, econometricĀ  ways are used in finance to help make investmentĀ  opinions, measureĀ  threat, and valueĀ  fiscal instruments. On the other hand, finance provides the data and the practicalĀ  operations that econometricians use to develop and test their models.

Both econometrics and finance are important fields of study forĀ  individualities interested in pursuing careers in finance, banking, investments, and other affiliated fields. These disciplines helpĀ  individualities understand theĀ  complications of the global frugality and make informedĀ  opinions aboutĀ  fiscal planning and investment strategies.

14. Energy

Energy is aĀ  pivotal resource that powersĀ  ultramodern society. It's a property of matter and can takeĀ  colorful forms, including thermal, mechanical, electrical, and chemical energy. Energy isĀ  demanded to produce goods, power homes and businesses, andĀ  give transportation.

There areĀ  numerous sources of energy, including fossil energiesĀ  similar as coal,Ā  oil painting, and natural gas, as well as renewable sourcesĀ  similar as solar, wind, and hydro power. The use of energy has significant impacts on theĀ  terrain and the global frugality, making the effective and sustainable use of energy aĀ  crucial challenge for policymakers and businesses.

The energy sector is complex andmulti-faceted, withĀ  numerous differentĀ  factors includingĀ  product, distribution,Ā  storehouse, and consumption. The energy sector is also heavily regulated, with governments around the worldĀ  enforcingĀ  programs aimed at reducingĀ  hothouse gas emigrations, promoting energyĀ  effectiveness, andĀ  addingĀ  the use of renewable energy sources.

Studying energy is important for understanding theĀ  profitable, environmental, and geopolitical counteraccusationsĀ  of our use of energy and for chancingĀ  ways to meet the world's growing energyĀ  requirements in a sustainable and responsible manner. It encompasses a wide range of subjects, including energy economics, energy policy, energyĀ  requests, and energy technologies.

15. Engineering

Engineering is the application of scientific, mathematical, and practical knowledge to design, build, and maintain structures, machines, systems, and processes. Engineering plays a critical role in shaping our modern world, as engineers use their skills and expertise to design and create the products, technologies, and infrastructure that make our daily lives possible.

Engineering is a broad field that encompasses many different disciplines, including civil, mechanical, electrical, and chemical engineering. Civil engineers design and build the infrastructure that supports our communities, such as roads, bridges, and buildings. Mechanical engineers design and develop machines, from small household appliances to large industrial systems. Electrical engineers work on the design and development of electrical systems, including power generation, transmission, and distribution. Chemical engineers use their knowledge of chemistry to design processes for producing chemicals, fuels, and other products.

Engineering requires a strong foundation in mathematics and the natural sciences, as well as an understanding of engineering principles and design. Engineering also requires creativity and problem-solving skills, as engineers must find innovative solutions to complex challenges.

Studying engineering prepares individuals for a variety of challenging and rewarding careers, as well as for making significant contributions to society. Whether working in industry, government, or academia, engineers play a critical role in driving technological progress and improving our quality of life.

16. Environmental scienceĀ 

Environmental science is the interdisciplinary study of the natural world and the impact of human activities on it. It encompasses the physical, chemical, and biological processes that occur in the environment, as well as the social, economic, and political factors that influence environmental policies and decision-making.

Environmental scientists study a wide range of topics, including air and water pollution, climate change, biodiversity, natural resource management, and sustainability. They use scientific methods and data to understand the complexities of the environment and the impact of human activities on it.

One of the main goals of environmental science is to find ways to protect and preserve the environment for future generations. This involves developing and implementing policies, technologies, and practices that promote sustainable use of natural resources, reduce waste and pollution, and mitigate the impact of human activities on the environment.

Environmental science is a rapidly growing field that is essential for addressing some of the most pressing environmental challenges facing our world today. It requires a strong foundation in the natural sciences, as well as an understanding of the social, economic, and political factors that influence environmental decision-making. Studying environmental science prepares individuals for careers in government agencies, non-profit organizations, research institutions, and other organizations working to protect the environment and promote sustainability.

17. Immunology and microbiology

Immunology and microbiology are two related fields that study the interactions between the body's immune system and microorganisms, such as bacteria, viruses, fungi, and parasites.

Immunology is the study of the immune system, its components, and how it defends the body against disease-causing agents. Immunologists investigate how the immune system recognizes and responds to foreign substances, such as viruses and bacteria, and how it can be manipulated to prevent or treat disease. They also study the underlying mechanisms of immunological disorders, such as allergies and autoimmune diseases.

Microbiology, on the other hand, is the study of microorganisms and their interactions with the environment and with other living organisms. Microbiologists investigate the structure, function, and behavior of microorganisms and their role in causing disease. They also study the interactions between microorganisms and their hosts, and how they can be controlled or manipulated to promote health.

The fields of immunology and microbiology are closely intertwined, as the body's immune response to microorganisms is a crucial aspect of both the pathogenesis of disease and the development of effective treatments.

Studying immunology and microbiology is important for understanding the complex interactions between the body and microorganisms, and for developing strategies to prevent, diagnose, and treat infectious diseases. These disciplines have wide-ranging applications in medicine, biotechnology, agriculture, and other fields, and play a critical role in advancing our knowledge of the biological world and improving human health.

18. Materials ScienceĀ 

Materials science is the study of materials and their properties, structures, and behaviors. It is a multidisciplinary field that combines elements of physics, chemistry, biology, and engineering to understand how the properties of materials arise from their atomic and molecular structure, and how they can be controlled and manipulated to develop new materials with specific properties.

Materials scientists study a wide range of materials, including metals, polymers, ceramics, and composites. They investigate how materials respond to different conditions, such as temperature, stress, and exposure to various environments, and how they can be processed and manufactured into useful products.

Materials science has many practical applications, as the properties of materials play a critical role in the design and performance of a wide range of products and technologies, including electronics, aerospace, energy, and biomedical devices. Materials scientists work to develop new materials with improved performance and new functionalities, and to find ways to sustainably produce and use materials in an environmentally responsible manner.

Studying materials science requires a strong foundation in the physical and chemical sciences, as well as an understanding of materials processing and manufacturing techniques. It is a challenging and dynamic field that provides exciting opportunities for discovery, innovation, and the development of cutting-edge technologies.

19. Mathematics

Mathematics is the study of numbers, quantities, and shapes and the relationships between them. It is a fundamental discipline that has been around for thousands of years and is essential for understanding and solving many of the problems facing our world today.

Mathematics is used in a wide range of fields, including science, engineering, finance, and technology, and it plays a critical role in advancing our understanding of the natural world and the development of new technologies. Some of the most important branches of mathematics include algebra, geometry, calculus, and statistics.

Algebra deals with mathematical symbols and the rules for manipulating those symbols to solve equations and study relationships between variables. Geometry deals with shapes, sizes, and positions of objects in space, and it is used in fields such as architecture, engineering, and computer graphics. Calculus is the study of change and deals with concepts such as derivatives and integrals, which are used in fields such as physics, engineering, and economics. Statistics is the branch of mathematics that deals with the collection, analysis, interpretation, presentation, and organization of data.

Mathematics is a challenging discipline that requires a strong foundation in problem-solving and logical thinking. However, it is also a very rewarding field, as it provides a precise and rigorous way of thinking and can lead to new insights and solutions to complex problems. Studying mathematics prepares individuals for careers in a wide range of fields and for making significant contributions to society.

20. Medicine and Dentistry

Medicine and dentistry are two related fields that focus on the study of the human body and the prevention, diagnosis, and treatment of disease.

Medicine is the branch of healthcare that deals with the diagnosis, treatment, and prevention of illness, disease, and injury. Medical professionals, such as physicians, nurses, and paramedics, work to diagnose and treat patients and to promote health and wellness. Medicine is a rapidly advancing field that incorporates new technologies, such as genetic engineering, nanotechnology, and robotics, and it plays a critical role in improving human health and longevity.

Dentistry is the branch of medicine that focuses on the study, diagnosis, and treatment of conditions and diseases of the oral cavity, including the teeth, gums, and jaws. Dentists and dental hygienists work to maintain oral health, prevent and treat oral diseases, and restore damaged or missing teeth. Dentistry plays a critical role in promoting overall health and wellness, as oral health is closely linked to the health of the rest of the body.

Both medicine and dentistry require a strong foundation in the basic sciences, including anatomy, physiology, and biochemistry, as well as a commitment to continuous learning and professional development. These fields require not only technical expertise, but also strong communication skills, empathy, and a dedication to helping others. The practice of medicine and dentistry is both challenging and rewarding, and it offers the opportunity to make a positive impact on the lives of others.

21. Neuroscience

Neuroscience is the scientific study of the nervous system, including the brain and spinal cord, and how they control behavior and perception. It is a multidisciplinary field that combines elements of biology, psychology, philosophy, computer science, and engineering to understand the complex functions of the brain and nervous system.

Neuroscientists study the anatomy and physiology of the brain, including the structure and function of neurons and the connections between them, as well as the molecular and genetic basis of brain function. They also study the development of the brain, including how experience and environment can shape brain structure and function, and they investigate the neural basis of behavior, perception, and consciousness.

One of the central goals of neuroscience is to understand the mechanisms underlying neurological and psychiatric disorders, such as Alzheimer's disease, Parkinson's disease, depression, and schizophrenia, and to develop new treatments for these conditions. Neuroscience also plays a critical role in advancing our understanding of how the brain processes information and learns, and it has many practical applications, including the development of new technologies for restoring function after injury or disease, and for improving cognitive function and performance.

Studying neuroscience requires a strong foundation in the biological and physical sciences, as well as a deep understanding of the methods used to study the brain and behavior. It is a challenging and rapidly evolving field that offers exciting opportunities for discovery and innovation.

22. Nursing and Health Professions

Nursing and health professions are fields that focus on providing care for individuals and communities to promote health and wellness, prevent disease, and manage illness and injury. They play a critical role in improving the health and quality of life for individuals and communities and are essential to the functioning of healthcare systems.

Nursing is a healthcare profession that focuses on the care of individuals and communities and the promotion of health and wellness. Nurses provide a wide range of services, including patient assessment, diagnosis, and treatment, medication administration, and health promotion and education. They work in a variety of settings, including hospitals, clinics, nursing homes, and schools, and they collaborate with other healthcare professionals to provide comprehensive care to patients.

Health professions encompass a wide range of careers, including physicians, pharmacists, physical therapists, and occupational therapists, among others. These professionals work to diagnose, treat, and prevent health problems, and they play a critical role in promoting health and wellness, managing chronic conditions, and providing care to individuals and communities.

Both nursing and health professions require a strong foundation in the biological and social sciences, as well as a commitment to continuous learning and professional development. These fields also require strong communication and interpersonal skills, empathy, and a dedication to helping others. Nursing and health professions offer rewarding careers with the opportunity to make a positive impact on the lives of others and to advance the field through innovation and research.

23. Pharmacology

Pharmacology is the scientific study of drugs and their interactions with the human body. It encompasses the discovery, development, and evaluation of new drugs, as well as the investigation of their mechanisms of action, therapeutic effects, and side effects.

Pharmacologists study how drugs interact with the body, including the absorption, distribution, metabolism, and excretion of drugs, and the mechanisms by which they produce their therapeutic effects and adverse reactions. They also study the interactions between drugs and the various systems of the body, including the nervous system, cardiovascular system, and immune system, and they use this knowledge to develop new treatments for a wide range of diseases and conditions.

Pharmacology plays a critical role in the development of new medications and treatments for a wide range of medical conditions, including cancer, heart disease, mental illness, and infectious diseases. It also plays a critical role in understanding the actions and side effects of existing drugs and in improving the safety and efficacy of new and existing drugs.

To study pharmacology, one needs a strong foundation in the biological and chemical sciences, as well as a deep understanding of the methods used to study drugs and their effects. It is a rapidly advancing field that offers exciting opportunities for discovery and innovation, as well as the potential to improve human health and well-being.

24. Toxicology and PharmaceuticalĀ 

Toxicology is the scientific study of the harmful effects of chemicals and other agents on living organisms and the environment. It encompasses the investigation of the mechanisms by which chemicals and other agents cause adverse effects, as well as the development of methods for assessing and mitigating these effects.

Toxicologists study the effects of chemicals and other agents on human health and the environment, including their effects on the nervous system, reproductive system, immune system, and other body systems. They use this knowledge to develop methods for assessing the potential hazards of chemicals and other agents and to recommend strategies for reducing exposure and minimizing risk.

Pharmaceutical science is the study of the development, production, and evaluation of drugs and other medicinal products. It encompasses a wide range of disciplines, including chemistry, biology, pharmacology, and engineering, and it is concerned with the discovery, design, and evaluation of new drugs, as well as the improvement of existing drugs.

Pharmaceutical scientists work to develop new treatments for a wide range of medical conditions, including cancer, heart disease, mental illness, and infectious diseases. They also work to improve the safety and efficacy of existing drugs, and to understand the mechanisms by which drugs interact with the human body.

Both toxicology and pharmaceutical science require a strong foundation in the biological and chemical sciences, as well as a deep understanding of the methods used to study chemicals and drugs. These fields offer exciting opportunities for discovery and innovation, as well as the potential to improve human health and the environment.

25. Physics and Astronomy

Physics is the study of the fundamental laws of nature that govern the behavior of matter and energy. It encompasses a wide range of phenomena, including motion, energy, force, matter, and the structure of the universe.

Physicists use experiments and mathematical models to study a wide range of phenomena, from the smallest subatomic particles to the largest structures in the universe. They use this knowledge to develop new technologies, such as medical imaging devices, energy production technologies, and computer systems, and to improve our understanding of the universe and our place within it.

Astronomy is the study of the universe beyond our planet, including stars, galaxies, and the origins and evolution of the universe itself. Astronomers use telescopes, satellites, and other instruments to study the stars and other celestial objects, and they use this information to learn about the structure and evolution of the universe, and to search for evidence of life on other planets.

Physics and astronomy are interdisciplinary fields that draw on a wide range of disciplines, including mathematics, engineering, and computer science. They offer exciting opportunities for discovery and innovation, as well as the potential to deepen our understanding of the universe and our place within it. To study physics or astronomy, one needs a strong foundation in mathematics and a deep understanding of the scientific method.

26. Psychology

Psychology is the scientific study of human behavior, thoughts, and emotions. It encompasses a wide range of topics, including perception, cognition, development, personality, abnormal behavior, and social behavior.

Psychologists study a wide range of phenomena, from the basic processes underlying perception and learning, to the development of personality and identity, to the causes and treatment of mental disorders. They use a variety of research methods, including laboratory experiments, surveys, and naturalistic observations, to gather data and test their theories.

Psychology has important practical applications in a wide range of fields, including education, business, law, and health care. For example, psychologists may work in schools to improve educational practices, in businesses to improve organizational performance and employee well-being, in the legal system to assist with investigations and trials, and in health care to help diagnose and treat mental disorders.

To study psychology, one needs a strong foundation in the scientific method and a deep understanding of the theories and concepts in the field. It is a dynamic and rapidly-evolving field that offers exciting opportunities for discovery and innovation, as well as the potential to improve the lives of individuals and society as a whole.

27. SocialĀ 

The term social can refer to many different aspects of society and human behavior. Here are a few of the most common meanings of the term in different fields:

  • Social sciences: The social sciences are a group of academic disciplines that study human behavior, society, and culture. This includes fields such as sociology, anthropology, economics, political science, psychology, and geography. The social sciences aim to understand and explain human behavior and social phenomena, and to develop theories and methods for solving social problems.
  • Social studies: Social studies is a field of study in schools that focuses on the social sciences and the study of human behavior, society, and culture. It is often taught in elementary, middle, and high schools, and covers topics such as history, geography, economics, and government.
  • Social media: Social media refers to websites and apps that allow people to connect, communicate, and share information with each other. This includes platforms like Facebook, Twitter, Instagram, and others. Social media has become an important part of modern society and has transformed the way people communicate and interact with each other.
  • Social justice: Social justice refers to the idea that all people should have equal rights, opportunities, and treatment under the law, regardless of their race, gender, religion, or other factors. It is a concept that is central to many fields, including law, political science, sociology, and psychology, and it is often a key area of focus for advocates and activists working to create a more equitable and just society.
  • Social work: Social work is a profession that involves helping individuals, families, and communities to improve their well-being and solve social problems. Social workers often work in areas such as child welfare, mental health, and aging, and they may provide direct services such as counseling, advocacy, and case management, or engage in broader systemic change efforts.

 

Target countries

Target Countries

Afghanistan| Ā Albania| Algeria| Andorra | Angola| Antigua and Barbuda| Ā Argentina| Ā Armenia| Australia| Ā Austria| Ā Azerbaijan| Ā Bahamas| Ā Bahrain| Ā Bangladesh| Barbado| Ā Belarus| Belgium| Ā Belize| Ā Benin| Ā Bhutan| Bolivia| Ā Bosnia and Herzegovina| Ā Botswana| Ā Brazil| Ā Brunei| Ā Bulgaria| Ā Burkina Faso| Ā Burundi| Ā Cabo Verde| Ā Cambodia| Ā Cameroon| Ā Canada| Ā Central African Republic| Ā Chad| Chile| Ā China| Ā Colombia| Ā Comoros| Democratic Republic of the Congo| Ā Republic of the Congo| Costa Rica| Ā Cote d'Ivoire| Ā Croatia| Cuba| Ā Cyprus| Czech Republic| Ā Denmark| Ā Djibouti| Dominica| Dominican Republic| Ā Ecuador| Ā Egypt| Ā El Salvador| Ā Equatorial Guinea| Ā Eritrea| Estonia| Eswatini| Ethiopia| Ā Fiji| Ā Finland| Ā France| Gabon| Gambia| Ā Georgia| Germany| Ā Ghana| Greece| Ā Grenada| Guatemala| Ā Guinea| Ā Guinea-Bissau| Ā Guyana| Ā Haiti| Honduras| Ā Hungary| Ā Iceland| Ā India| Ā Indonesia| Ā Iran| Ā Iraq| Ā Ireland| Ā Israel| Ā Italy| Ā Jamaica| Ā Japan| Ā Jordan| Ā Kazakhstan| Kenya| Ā Kiribati| Ā Kosovo| Ā Kuwait| Ā Kyrgyzstan| Ā Laos| Ā Latvia| Ā Lebanon| Ā Lesotho| Ā Liberia| Libya| Ā Liechtenstein| Lithuania| Luxembourg| Madagascar| Ā Malawi| Ā Malaysia| Maldives| Ā Mali| Ā Malta| Ā Marshall Islands| Ā Mauritania| Ā Mauritius| Ā Mexico| Ā Micronesia| Ā Moldova| Ā Monaco| Ā Mongolia| Ā Montenegro| Ā Morocco| Ā Mozambique| Ā Myanmar (Burma)| Ā Namibia| Ā Nauru| Ā Nepal| Ā Netherlands| Ā New Zealand| Nicaragua| Ā Niger| Ā Nigeria| Ā North Korea| Ā North Macedonia| Ā Norway| Ā Oman| Ā Pakistan| Ā Palau| Ā Panama| Ā Papua New Guinea| Ā Paraguay| Ā Peru| Ā Philippines| Ā Poland| Ā Portugal| Ā Qatar| Ā Romania| Ā Russia| Rwanda| Ā Saint Kitts and Nevis| Ā Saint Lucia| Ā Saint Vincent and the Grenadines| Ā Samoa| Ā San Marino| Ā Sao Tome and Principe| Ā Saudi Arabia| Ā Senegal| Ā Serbia| Ā Seychelles| Ā Sierra Leone| Ā Singapore| Ā Slovakia| Ā Slovenia| Ā Solomon Islands| Ā Somalia| Ā South Africa| Ā South Korea| Ā South Sudan| Ā Spain| Sri Lanka| Ā Sudan| Ā Suriname| Ā Sweden| Ā Switzerland| Syria| Ā Taiwan| Ā Tajikistan| Ā Tanzania| Ā Thailand| Timor-Leste| Ā Togo| Ā Tonga| Ā Trinidad and Tobago| Tunisia| Turkey| Turkmenistan| Tuvalu| Uganda| Ā Ukraine| Ā United Arab Emirates|United Kingdom| United States| Ā Uruguay| Ā Uzbekistan| Ā Vanuatu| Vatican City| Venezuela| Vietnam| Yemen| Ā Zambia| Ā Zimbabwe.
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Target audience

Target AudienceĀ 

  1. Researchers and scientists from academia and industry
  2. Engineers and technologists working in related fields
  3. Students and postdoctoral fellows in science and technology
  4. Innovation managers and technology transfer professionals
  5. Government representatives and policy makers
  6. Investors and venture capitalists interested in funding new science and technology ventures
  7. Science communicators and journalists
  8. Representatives from scientific and professional organizations.

Target universities

Target Universities

  1. Massachusetts Institute of Technology (MIT)
  2. Stanford University
  3. California Institute of Technology (Caltech)
  4. University of Cambridge
  5. Imperial College London
  6. University of Chicago
  7. ETH Zurich
  8. University of Oxford
  9. University of Tokyo
  10. National University of Singapore (NUS)

Target companies

Target Companies

Google | Microsoft | Apple | Amazon | IBM | Intel | Facebook | Tesla | Alphabet( Google's parent company) | NVIDIA | Pharmaceutical companies | Medical device companies | Biotech companies | Clinical trial associations | Academic institutions | Technology companies Medtronic | Boston Scientific | Abbott Laboratories | Johnson & Johnson | St. Jude Medical | GE Healthcare| Philips Healthcare | Siemens Healthineers | Biotronik | Terumo Medical Corporation

Market Analysis

Market Analysis

TheĀ  request analysis for the International Conference on New Science Inventions( ICNSI) would depend on the specific conference and itsĀ  pretensions. still, some of the implicit factors that could be considered in aĀ  request analysis for the conference could includeĀ Ā  The demand for knowledge andĀ  moxie in theĀ  rearmost developments inĀ  wisdom and technology The ICNSI could aim to meet the demand for over- to- date information andĀ  moxie inĀ  wisdom and technology byĀ  furnishing attendees withĀ  openings to engage with experts and to learn about theĀ  rearmostĀ  inventions and stylish practices.Ā Ā  The size of the targetĀ  request The targetĀ  request for the ICNSI could include experimenters, scientists,Ā  masterminds, policymakers, and others who are interested inĀ  wisdom and technology.

Popular Books


1. Introduction to Engineering Ethics" by Mike W. Martin, Oxford University Press, 4th Edition, 2018|2. Engineering Mechanics: Dynamics" by R.C. Hibbeler, Pearson, 14th Edition, 2015|3. Engineering Mechanics: Statics" by J.L. Meriam and L.G. Kraige, Wiley, 8th Edition, 2016|4. Materials Science and Engineering: An Introduction" by William D. Callister Jr. and David G. Rethwisch, Wiley, 10th Edition, 2017|5. Mechanical Engineering Design" by Joseph E. Shigley and Charles R. Mischke, McGraw Hill Education, 10th Edition, 2014,|6. Mechanics of Materials" by Russell C. Hibbeler, Pearson, 10th Edition, 2016|7. Fundamentals of Engineering Thermodynamics" by Michael J. Moran, Howard N. Shapiro, Daisie D. Boettner, Wiley, 8th Edition, 2014,|8. Engineering Vibration" by Daniel J. Inman, Pearson, 4th Edition, 2014,|9. Control Systems Engineering" by Norman S. Nise, Wiley, 7th Edition, 2015,|10. Electric Machinery and Transformers" by Bhag S. Guru and Huseyin R. Hiziroglu, Oxford University Press, 3rd Edition, 2018|11. Process Control: Modeling, Design, and Simulation" by B. Wayne Bequette, Prentice Hall, 2nd Edition, 2010|12. Probability, Statistics, and Random Processes For Electrical Engineering" by Alberto Leon-Garcia, Pearson, 3rd Edition, 2008,|13. A First Course in Finite Elements" by Jacob Fish and Ted Belytschko, Wiley, 1st Edition, 2007,|14. Engineering Economic Analysis" by Donald G. Newnan, Ted G. Eschenbach, Jerome P. Lavelle, Oxford University Press, 13th Edition, 2018,|15. Thermodynamics: An Engineering Approach" by Yunus A. Cengel and Michael A. Boles, McGraw Hill Education, 9th Edition, 2020,|16. Feedback Control of Dynamic Systems" by Gene Franklin, J. Da Powell, Abbas Emami-Naeini, Pearson, 7th Edition, 2015,|17. Electrical Engineering: Principles and Applications" by Allan R. Hambley, Pearson, 7th Edition, 2015,|18. Computer Networks" by Andrew S. Tanenbaum and David J. Wetherall, Pearson, 5th Edition, 2011,|19. Fundamentals of Heat and Mass Transfer," by Theodore L. Bergman, Adrienne S. Lavine, Frank P. Incropera, David P. DeWitt, Wiley, 7th Edition, 2011|20. Mechanical Vibrations" by Singiresu S. Rao, Pearson, 6th Edition, 2019|21. Digital Signal Processing: Principles, Algorithms, and Applications" by John G. Proakis and Dimitris G. Manolakis, Pearson, 4th Edition, 2006,|22. Structural Analysis" by Russell C. Hibbeler, Pearson, 9th Edition, 2013|23. Power Electronics: Converters, Applications, and Design," by Ned Mohan, Tore M. Und,|24. Engineering Mechanics: Combined Statics and Dynamics" by J.L. Meriam and L.G. Kraige, Wiley, 7th Edition, 2012|25. Introduction to Electrodynamics" by David J. Griffiths, Pearson, 4th Edition, 2017|26. Principles of Measurement Systems," by John P. Bentley, Pearson, 5th Edition, 2015,|27. Chemical Engineering Thermodynamics," by J.M. Smith, H.C. Van Ness, and M.M. Abbott, McGraw Hill Education, 8th Edition, 2017,|28. An Introduction to Thermal Physics," by Daniel V. Schroeder, Pearson, 2nd Edition, 2018|29. Modern Control Engineering," by Katsuhiko Ogata, Pearson, 5th Edition, 2010,|30. Robot Modeling and Control," by Mark W. Spong, Seth Hutchinson, and M. Vidyasagar, Wiley, 1st Edition, 2005|31. Introduction to Environmental Engineering and Science," by Gilbert M. Masters and Wendell P. Ela, Pearson, 3rd Edition, 2008|32. Machine Design," by Robert L. Norton, Pearson, 5th Edition, 2013|33. Engineering Dynamics," by Jerry Ginsberg, Pearson, 2nd Edition, 2008|34. Fluid Mechanics: Fundamentals and Applications," by Yunus A. Cengel and John M. Cimbala, McGraw Hill Education, 4th Edition, 2018,|35. Fundamentals of Modern Manufacturing: Materials, Processes, and Systems," by Mikell P. Groover, Wiley, 6th Edition, 2015,|36. Electromagnetic Fields and Waves," by Paul Lorrain and Dale R. Corson, Freeman, 3rd Edition, 1990,|37. Transport Phenomena," by R. Byron Bird, Warren E. Stewart, and Edwin N. Lightfoot, Wiley, 2nd Edition, 2002|38. Engineering Optimization: Theory and Practice," by Singiresu S. Rao, Wiley, 4th Edition, 2009,|39. Mechatronics: Principles and Applications," by Godfrey C. Onwubolu, Butterworth-Heinemann, 1st Edition, 2005,|40. Electronic Devices and Circuit Theory," by Robert L. Boylestad and Louis Nashelsky, Pearson, 11th Edition, 2012|41. Fundamentals of Engineering Drawing," by Warren J. Luzadder and Jon M. Duff, McGraw Hill Education, 11th Edition, 2011|42. Control Systems Engineering," by I.J. Nagrath and M. Gopal, Wiley, 6th Edition, 2014,|43. Fundamentals of Logic Design," by Charles H. Roth Jr. and Larry L. Kinney, Cengage Learning, 7th Edition, 2014|44. Engineering Mechanics: Statics & Dynamics," by Anthony Bedford and Wallace Fowler, Pearson, 5th Edition, 2019|45. Engineering Statistics," by Douglas C. Montgomery, Wiley, 5th Edition, 2012|46. Computer Organization and Design: The Hardware/Software Interface," by David A. Patterson and John L. Hennessy, Morgan Kaufmann, 5th Edition, 2013|47. Engineering Design and Graphics with SolidWorks," by James D. Bethune, Peachpit Press, 2016|48. Introduction to Mechatronics and Measurement Systems," by David G. Alciatore and Michael B. Histand, McGraw Hill Education, 5th Edition, 2018,|49. Engineering Vibration," by Daniel J. Inman, Pearson, 4th Edition, 2013|50. Applied Numerical Methods with MATLAB for Engineers and Scientists," by Steven C. Chapra and Raymond P. Canale, McGraw Hill Education, 4th Edition, 2017,|51. Process Dynamics and Control," by Dale E. Seborg, Thomas F. Edgar, and Duncan A. Mellichamp, Wiley, 3rd Edition, 2010|52. Fundamentals of Heat and Mass Transfer," by Theodore L. Bergman, Adrienne S. Lavine, Frank P. Incropera, and David P. DeWitt, Wiley, 7th Edition, 2011,|53. Control Systems Engineering," by Norman S. Nise, Wiley, 7th Edition, 2015|54. Engineering Ethics: Concepts and Cases," by Charles E. Harris, Jr., Michael S. Pritchard, and Michael J. Rabins, Cengage Learning, 5th Edition, 2018,|55. Electric Machinery Fundamentals," by Stephen J. Chapman, McGraw Hill Education, 5th Edition, 2011|56. Engineering Mechanics: Dynamics," by Gary L. Gray, Francesco Costanzo, and Michael E. Plesha, McGraw Hill Education, 2nd Edition, 2018,|57. Fundamentals of Electric Circuits," by Charles K. Alexander and Matthew N.O. Sadiku, McGraw Hill Education, 6th Edition, 2020,|58. Engineering Economy," by William G. Sullivan, Elin M. Wicks, and C. Patrick Koelling, Pearson, 17th Edition, 2021|59. Process Systems Analysis and Control," by Donald R. Coughanowr and Steven E. LeBlanc, McGraw Hill Education, 4th Edition, 2009,|60. Probability and Statistics for Engineering and the Sciences," by Jay L. Devore, Brooks/Cole, 9th Edition, 2016| Ā 61. Engineering Mechanics: Statics," by J.L. Meriam and L.G. Kraige, Wiley, 8th Edition, 2017,|62. Digital Signal Processing: Principles, Algorithms, and Applications," by John G. Proakis and Dimitris G. Manolakis, Pearson, 4th Edition, 2006|63. Engineering Design Graphics: Sketching, Modeling, and Visualization," by James H. Earle, Pearson, 2nd Edition, 2016,|64. Microelectronic Circuits," by Adel S. Sedra and Kenneth C. Smith, Oxford University Press, 7th Edition, 2014|65. Fundamentals of Materials Science and Engineering: An Integrated Approach," by William D. Callister Jr. and David G. Rethwisch, Wiley, 5th Edition, 2015,|66. A First Course in Probability," by Sheldon Ross, Pearson, 10th Edition, 2018|67. Mechanics of Materials," by James M. Gere and Barry J. Goodno, Cengage Learning, 9th Edition, 2018,|68. Engineering Mechanics: Statics and Dynamics," by Anthony M. Bedford and Wallace Fowler, Pearson, 5th Edition, 2019,|69. Electric Power Systems: A Conceptual Introduction," by Alexandra von Meier, Wiley, 2nd Edition, 2018,|70. Fundamentals of Engineering Thermodynamics," by Michael J. Moran, Howard N. Shapiro, Daisie D. Boettner, and Margaret B. Bailey, Wiley, 9th Edition, 2019|71. Principles of Geotechnical Engineering," by Braja M. Das and Khaled Sobhan, Cengage Learning, 9th Edition, 2018|72. Engineering Mechanics: Statics and Dynamics," by Andrew Pytel and Jaan Kiusalaas, Nelson Education, 4th Edition, 2010|73. Materials Science and Engineering: An Introduction," by William D. Callister Jr. and David G. Rethwisch, Wiley, 10th Edition, 2018|74. Engineering Mechanics: Dynamics," by J.L. Meriam, L.G. Kraige, and J.N. Bolton, Wiley, 8th Edition, 2016|75. Engineering Mechanics: Statics," by R.C. Hibbeler, Pearson, 14th Edition, 2015,|76. Linear Algebra and Its Applications," by Gilbert Strang, Brooks/Cole, 5th Edition, 2016|77. Design of Machinery: An Introduction to the Synthesis and Analysis of Mechanisms and Machines," by Robert L. Norton, McGraw Hill Education, 6th Edition, 2018,|78. Design of Reinforced Concrete," by Jack C. McCormac and Russell H. Brown, Wiley, 10th Edition, 2015|79. Electric Power Distribution Engineering," by Turan Gonen, CRC Press, 3rd Edition, 2021|80. Engineering Mechanics: Dynamics," by Russell C. Hibbeler, Pearson, 14th Edition, 2016|81. Engineering Mechanics: Statics" by Russell C. Hibbeler, Pearson, 14th Edition, 2016|82. Statics and Mechanics of Materials," by Ferdinand P. Beer, E. Russell Johnston Jr., and John T. DeWolf, McGraw Hill Education, 1st Edition, 2016|83. Engineering Mechanics: Dynamics," by Gary L. Gray, Francesco Costanzo, and Michael E. Plesha, McGraw Hill Education, 2nd Edition, 2018|84. Design of Machine Elements," by M.F. Spotts, T.E. Shoup, and L.E. Hornberger, Pearson, 8th Edition, 2017|85. Statics and Mechanics of Materials," by Anthony M. Bedford and Wallace Fowler, Pearson, 5th Edition, 2020|86. Engineering Mechanics: Statics," by Gary L. Gray, Francesco Costanzo, and Michael E. Plesha, McGraw Hill Education, 2nd Edition, 2018|87. Principles of Heat Transfer," by Frank Kreith and Raj M. Manglik, Cengage Learning, 8th Edition, 2019|88. Control Systems: Engineering, 5th Edition," by I.J. Nagrath and M. Gopal, Wiley, 5th Edition, 2014|89. Engineering Mechanics: Dynamics," by J.L. Meriam and L.G. Kraige, Wiley, 8th Edition, 2016|90. Mechanics of Materials," by William F. Riley, Leroy D. Sturges, and Don H. Morris, Wiley,|91. Engineering Mechanics: Dynamics," by Anthony Bedford and Wallace Fowler, Pearson, 6th Edition, 2017,|92. Fundamentals of Electric Circuits," by Charles K. Alexander and Matthew N.O. Sadiku, McGraw Hill Education, 6th Edition, 2021|93. Advanced Engineering Mathematics," by Erwin Kreyszig, Wiley, 10th Edition, 2019|94. Mechanics of Materials: An Integrated Learning System," by Timothy A. Philpot, Wiley, 3rd Edition, 2019,|95. Transportation Engineering: An Introduction," by C. Jotin Khisty and B. Kent Lall, Pearson, 3rd Edition, 2016,|96. Chemical Engineering Design: Principles, Practice and Economics of Plant and Process Design," by Gavin Towler and R.K. Sinnott, Elsevier, 3rd Edition, 2013|97. Engineering Mechanics: Dynamics," by Timothy A. Philpot, Wiley, 2nd Edition, 2016,|98. Mechanics of Materials," by James M. Gere and Barry J. Goodno, Cengage Learning, 9th Edition, 2018,|99. Engineering Mechanics: Dynamics," by Hibbeler, Pearson, 14th Edition, 2016|100. Chemical Engineering Design and Analysis: An Introduction," by T. Michael Duncan and Jeffrey A. Reimer, Cambridge University Press, 2nd Edition, 2020

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1. Association for Computing Machinery ā€“ USA | 2. Institute of Electrical and Electronics Engineers ā€“ USA | 3. Society for Industrial and Applied Mathematics ā€“ USA | 4. Association for Information Systems ā€“ USA | 5. The Optical Society ā€“ USA | 6. American Institute of Aeronautics and Astronautics ā€“ USA | 7. American Physical Society ā€“ USA | 8. American Society of Civil Engineers ā€“ USA | 9. American Society of Mechanical Engineers ā€“ USA | 10. American Statistical Association ā€“ USA | 11. Society of Automotive Engineers ā€“ USA | 12. Association for the Advancement of Artificial Intelligence ā€“ USA | 13. Institute of Physics ā€“ UK | 14. Institution of Engineering and Technology ā€“ UK | 15. Royal Society of Chemistry ā€“ UK | 16. British Computer Society ā€“ UK | 17. Chartered Institute for IT ā€“ UK | 18. Institution of Mechanical Engineers ā€“ UK | 19. Institute of Electrical Engineers of Japan ā€“ Japan | 20. 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Canadian Society for Mechanical Engineering ā€“ Canada | 37. Canadian Society for Civil Engineering ā€“ Canada | 38. Canadian Mathematical Society ā€“ Canada | 39. Canadian Nuclear Society - Canada | 40. Canadian Association of Physicists ā€“ Canada | 41. Canadian Information Processing Society ā€“ Canada | 42. Canadian Artificial Intelligence Association ā€“ Canada | 43. The Institute of Electrical and Electronics Engineers of Canada ā€“ Canada | 44. The Canadian Society for Digital Humanities ā€“ Canada | 45. German Physical Society ā€“ Germany | 46. German Informatics Society ā€“ Germany | 47. German Society for Applied Mathematics and Mechanics ā€“ Germany | 48. Association for Computing Machinery of Germany ā€“ Germany |49. Institute of Electrical and Electronics Engineers of Germany ā€“ Germany | 50. German Association for Pattern Recognition ā€“ Germany | 51. Gesellschaft fĆ¼r Informatik ā€“ Germany | 52. Austrian Society for Artificial Intelligence ā€“ Austria | 53. Austrian Society for Electron Microscopy and Analysis ā€“ Austria | 54. Austrian Physical Society ā€“ Austria | 55. Austrian Computer Society ā€“ Austria | 56. Austrian Society for Metallurgy and Materials ā€“ Austria | 57. Swiss Physical Society ā€“ Switzerland | 59. Swiss Society for Astrophysics and Astronomy ā€“ Switzerland 60.Ā 58. Swiss Society of Engineers and Architects ā€“ Switzerland |Ā Swiss Association for Artificial Intelligence ā€“ Switzerland | 61. Swiss Society for Operations Research ā€“ Switzerland | 62. Dutch Society for Precision Engineering ā€“ Netherlands | 63. Dutch Society for Materials Science ā€“ Netherlands | 64. Dutch Society for Computational Mechanics ā€“ Netherlands | 65. Dutch Society for Theoretical Biology ā€“ Netherlands | 66. The Netherlands Society for Microscopy ā€“ Netherlands | 67. The Dutch Association for Artificial Intelligence ā€“ Netherlands | 68. The Royal Swedish Academy of Engineering Sciences ā€“ Sweden | 69. 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EngineeringĀ  Mechanics:Ā  Statics," byĀ  J.L.Ā  MeriamĀ  andĀ  L.G.Ā  Kraige,Ā  Wiley,Ā  8thĀ  Edition,Ā  2016, | 4. MaterialsĀ  ScienceĀ  andĀ  Engineering:Ā  AnĀ  Introduction," by WilliamĀ  D.Ā  CallisterĀ  Jr.Ā  andĀ  DavidĀ  G.Ā  Rethwisch,Ā  Wiley,Ā  10thĀ  Edition,Ā  2017, | 5. MechanicalĀ  EngineeringĀ  Design,"Ā  byĀ  JosephĀ  E.Ā  ShigleyĀ  andĀ  CharlesĀ  R.Ā  Mischke,Ā  McGrawĀ  HillĀ  Education,Ā  10thĀ  Edition,Ā  2014, | 6. MechanicsĀ  ofĀ  Materials,"Ā  byĀ  RussellĀ  C.Ā  Hibbeler,Ā  Pearson,Ā  10thĀ  Edition,Ā  2016, | 7. FundamentalsĀ  ofĀ  EngineeringĀ  Thermodynamics,"Ā  byĀ  MichaelĀ  J.Ā  Moran,Ā  HowardĀ  N.Ā  Shapiro,Ā  DaisieĀ  D.Ā  Boettner,Ā  Wiley,Ā  8thĀ  Edition,Ā  2014, | 8. EngineeringĀ  Vibration,"Ā  byĀ  DanielĀ  J.Ā  Inman, Ā Pearson,Ā  4thĀ  Edition,Ā  2014, | 9. ControlĀ  SystemsĀ  Engineering,"Ā  byĀ  NormanĀ  S.Ā  Nise,Ā  Wiley,Ā  7thĀ  Edition,Ā  2015, | 10. 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PowerĀ  Electronics:Ā  Converters,Ā  Applications,Ā  andĀ  Design,"Ā  byĀ  NedĀ  Mohan,Ā  ToreĀ  M.Ā  Und, | 24. EngineeringĀ  Mechanics:Ā  CombinedĀ  StaticsĀ  andĀ  Dynamics,"Ā  byĀ  J.L.Ā  MeriamĀ  andĀ  L.G.Ā  Kraige,Ā  Wiley,Ā  7thĀ  Edition,Ā  2012, | 25. IntroductionĀ  toĀ  Electrodynamics,"Ā  byĀ  DavidĀ  J.Ā  Griffiths,Ā  Pearson,Ā  4thĀ  Edition,Ā  2017, | 26. PrinciplesĀ  ofĀ  MeasurementĀ  Systems,"Ā  byĀ  JohnĀ  P.Ā  Bentley,Ā  Pearson,Ā  5thĀ  Edition,Ā  2015, | 27. ChemicalĀ  EngineeringĀ  Thermodynamics,"Ā  byĀ  J.M.Ā  Smith,Ā  H.C.Ā  VanĀ  Ness,Ā  andĀ  M.M.Ā  Abbott,Ā  McGrawĀ  HillĀ  Education,Ā  8thĀ  Edition,Ā  2017, | 28. AnĀ  IntroductionĀ  toĀ  ThermalĀ  Physics,"Ā  byĀ  DanielĀ  V.Ā  Schroeder,Ā  Pearson,Ā  2ndĀ  Edition,Ā  2018, | 29. ModernĀ  ControlĀ  Engineering,"Ā  byĀ  KatsuhikoĀ  Ogata,Ā  Pearson,Ā  5thĀ  Edition,Ā  2010, | 30. 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EngineeringĀ  Mechanics:Ā  StaticsĀ  &Ā  Dynamics,"Ā  byĀ  AnthonyĀ  BedfordĀ  andĀ  WallaceĀ  Fowler,Ā  Pearson,Ā  5thĀ  Edition,Ā  2019, | 45. EngineeringĀ  Statistics,"Ā  byĀ  DouglasĀ  C.Ā  Montgomery,Ā  Wiley,Ā  5thĀ  Edition,Ā  2012, | 46. ComputerĀ  OrganizationĀ  andĀ  Design:Ā  TheĀ  Hardware/SoftwareĀ  Interface,"Ā  byĀ  DavidĀ  A.Ā  PattersonĀ  andĀ  JohnĀ  L.Ā  Hennessy,Ā  MorganĀ  Kaufmann,Ā  5thĀ  Edition,Ā  2013, | 47. EngineeringĀ  DesignĀ  andĀ  GraphicsĀ  withĀ  SolidWorks,"Ā  byĀ  JamesĀ  D.Ā  Bethune,Ā  PeachpitĀ  Press,Ā  2016, | 48. IntroductionĀ  toĀ  MechatronicsĀ  andĀ  MeasurementĀ  Systems,"Ā  byĀ  DavidĀ  G.Ā  AlciatoreĀ  andĀ  MichaelĀ  B.Ā  Histand,Ā  McGrawĀ  HillĀ  Education,Ā  5thĀ  Edition,Ā  2018, | 49. EngineeringĀ  Vibration,"Ā  byĀ  DanielĀ  J.Ā  Inman,Ā  Pearson,Ā  4thĀ  Edition,Ā  2013, | 50. AppliedĀ  NumericalĀ  MethodsĀ  withĀ  MATLABĀ  forĀ  EngineersĀ  andĀ  Scientists,"Ā  byĀ  StevenĀ  C.Ā  ChapraĀ  andĀ  RaymondĀ  P.Ā  Canale,Ā  McGrawĀ  HillĀ  Education,Ā  4thĀ  Edition,Ā  2017, | 51. ProcessĀ  DynamicsĀ  andĀ  Control,"Ā  byĀ  DaleĀ  E.Ā  Seborg,Ā  ThomasĀ  F.Ā  Edgar,Ā  andĀ  DuncanĀ  A.Ā  Mellichamp,Ā  Wiley,Ā  3rdĀ  Edition,Ā  2010, | 52. FundamentalsĀ  ofĀ  HeatĀ  andĀ  MassĀ  Transfer,"Ā  byĀ  TheodoreĀ  L.Ā  Bergman,Ā  AdrienneĀ  S.Ā  Lavine,Ā  FrankĀ  P.Ā  Incropera,Ā  andĀ  DavidĀ  P.Ā  DeWitt,Ā  Wiley,Ā  7thĀ  Edition,Ā  2011, | 53. ControlĀ  SystemsĀ  Engineering,"Ā  byĀ  NormanĀ  S.Ā  Nise,Ā  Wiley,Ā  7thĀ  Edition,Ā  2015, | 54. EngineeringĀ  Ethics:Ā  ConceptsĀ  andĀ  Cases,"Ā  byĀ  CharlesĀ  E.Ā  Harris,Ā  Jr.,Ā  MichaelĀ  S.Ā  Pritchard,Ā  andĀ  MichaelĀ  J.Ā  Rabins,Ā  CengageĀ  Learning,Ā  5thĀ  Edition,Ā  2018, | 55. ElectricĀ  MachineryĀ  Fundamentals,"Ā  byĀ  StephenĀ  J.Ā  Chapman,Ā  McGrawĀ  HillĀ  Education,Ā  5thĀ  Edition,Ā  2011, | 56. EngineeringĀ  Mechanics:Ā  Dynamics,"Ā  byĀ  GaryĀ  L.Ā  Gray,Ā  FrancescoĀ  Costanzo,Ā  andĀ  MichaelĀ  E.Ā  Plesha,Ā  McGrawĀ  HillĀ  Education,Ā  2ndĀ  Edition,Ā  2018, | 57. FundamentalsĀ  ofĀ  ElectricĀ  Circuits,"Ā  byĀ  CharlesĀ  K.Ā  AlexanderĀ  andĀ  MatthewĀ  N.O.Ā  Sadiku,Ā  McGrawĀ  HillĀ  Education,Ā  6thĀ  Edition,Ā  2020, | 58. EngineeringĀ  Economy,"Ā  byĀ  WilliamĀ  G.Ā  Sullivan,Ā  ElinĀ  M.Ā  Wicks,Ā  andĀ  C.Ā  PatrickĀ  Koelling,Ā  Pearson,Ā  17thĀ  Edition,Ā  2021, | 59. ProcessĀ  SystemsĀ  AnalysisĀ  andĀ  Control,"Ā  byĀ  DonaldĀ  R.Ā  CoughanowrĀ  andĀ  StevenĀ  E.Ā  LeBlanc,Ā  McGrawĀ  HillĀ  Education,Ā  4thĀ  Edition,Ā  2009, | 60. ProbabilityĀ  andĀ  StatisticsĀ  forĀ  EngineeringĀ  and Ā theĀ  Sciences,"Ā  byĀ  JayĀ  L.Ā  Devore,Ā  Brooks/Cole,Ā  9thĀ  Edition,Ā  2016, | 61. EngineeringĀ  Mechanics:Ā  Statics,"Ā  byĀ  J.L.Ā  MeriamĀ  andĀ  L.G.Ā  Kraige,Ā  Wiley,Ā  8thĀ  Edition,Ā  2017, | 62. DigitalĀ  SignalĀ  Processing:Ā  Principles,Ā  Algorithms,Ā  andĀ  Applications,"Ā  byĀ  JohnĀ  G. Ā ProakisĀ  andĀ  DimitrisĀ  G.Ā  Manolakis,Ā  Pearson,Ā  4thĀ  Edition,Ā  2006, | 63. EngineeringĀ  Design Ā Graphics:Ā  Sketching,Ā  Modeling,Ā  andĀ  Visualization,"Ā  byĀ  JamesĀ  H.Ā  Earle,Ā  Pearson,Ā  2ndĀ  Edition,Ā  2016, | 64. MicroelectronicĀ  Circuits,"Ā  byĀ  AdelĀ  S.Ā  SedraĀ  andĀ  KennethĀ  C.Ā  Smith,Ā  OxfordĀ  UniversityĀ  Press,Ā  7thĀ  Edition,Ā  2014, | 65. FundamentalsĀ  ofĀ  MaterialsĀ  ScienceĀ  andĀ  Engineering:Ā  AnĀ  IntegratedĀ  Approach,"Ā  byĀ  WilliamĀ  D.Ā  CallisterĀ  Jr.Ā  andĀ  DavidĀ  G.Ā  Rethwisch,Ā  Wiley,Ā  5thĀ  Edition,Ā  2015, | 66. AĀ  FirstĀ  CourseĀ  inĀ  Probability,"Ā  byĀ  SheldonĀ  Ross,Ā  Pearson,Ā  10thĀ  Edition,Ā  2018, | 67. MechanicsĀ  ofĀ  Materials,"Ā  byĀ  JamesĀ  M.Ā  GereĀ  andĀ  BarryĀ  J.Ā  Goodno,Ā  CengageĀ  Learning,Ā  9thĀ  Edition,Ā  2018, | 68. EngineeringĀ  Mechanics:Ā  StaticsĀ  andĀ  Dynamics,"Ā  byĀ  AnthonyĀ  M.Ā  BedfordĀ  andĀ  WallaceĀ  Fowler,Ā  Pearson,Ā  5thĀ  Edition,Ā  2019, | 69. ElectricĀ  PowerĀ  Systems:Ā  AĀ  ConceptualĀ  Introduction,"Ā  byĀ  AlexandraĀ  vonĀ  Meier,Ā  Wiley,Ā  2ndĀ  Edition,Ā  2018, | 70. FundamentalsĀ  ofĀ  EngineeringĀ  Thermodynamics,"Ā  byĀ  MichaelĀ  J.Ā  Moran,Ā  HowardĀ  N.Ā  Shapiro,Ā  DaisieĀ  D.Ā  Boettner,Ā  andĀ  MargaretĀ  B.Ā  Bailey,Ā  Wiley,Ā  9thĀ  Edition,Ā  2019, | 71. PrinciplesĀ  ofĀ  GeotechnicalĀ  Engineering,"Ā  byĀ  BrajaĀ  M.Ā  DasĀ  andĀ  KhaledĀ  Sobhan,Ā  CengageĀ  Learning,Ā  9thĀ  Edition,Ā  2018, | 72. EngineeringĀ  Mechanics:Ā  StaticsĀ  andĀ  Dynamics,"Ā  byĀ  AndrewĀ  PytelĀ  andĀ  JaanĀ  Kiusalaas,Ā  NelsonĀ  Education,Ā  4thĀ  Edition,Ā  2010, | 73. MaterialsĀ  ScienceĀ  andĀ  Engineering:Ā  AnĀ  Introduction,"Ā  byĀ  WilliamĀ  D.Ā  CallisterĀ  Jr.Ā  andĀ  DavidĀ  G.Ā  Rethwisch,Ā  Wiley,Ā  10thĀ  Edition, Ā 2018, | 74. EngineeringĀ  Mechanics:Ā  Dynamics,"Ā  byĀ  J.L.Ā  Meriam,Ā  L.G.Ā  Kraige,Ā  andĀ  J.N.Ā  Bolton,Ā  Wiley,Ā  8thĀ  Edition,Ā  2016, | 75. EngineeringĀ  Mechanics:Ā  Statics,"Ā  byĀ  R.C.Ā  Hibbeler,Ā  Pearson,Ā  14thĀ  Edition,Ā  2015, | 76. LinearĀ  AlgebraĀ  andĀ  ItsĀ  Applications,"Ā  byĀ  GilbertĀ  Strang,Ā  Brooks/Cole,Ā  5thĀ  Edition,Ā  2016, | 77. DesignĀ  ofĀ  Machinery:Ā  AnĀ  IntroductionĀ  toĀ  theĀ  SynthesisĀ  andĀ  AnalysisĀ  ofĀ  MechanismsĀ  andĀ  Machines,"Ā  byĀ  RobertĀ  L.Ā  Norton,Ā  McGrawĀ  HillĀ  Education,Ā  6thĀ  Edition,Ā  2018, | 78. DesignĀ  ofĀ  ReinforcedĀ  Concrete,"Ā  byĀ  JackĀ  C.Ā  McCormacĀ  andĀ  RussellĀ  H.Ā  Brown,Ā  Wiley,Ā  10thĀ  Edition,Ā  2015, | 79. ElectricĀ  PowerĀ  DistributionĀ  Engineering,"Ā  byĀ  TuranĀ  Gonen,Ā  CRCĀ  Press,Ā  3rdĀ  Edition,Ā  2021, | 80. EngineeringĀ  Mechanics:Ā  Dynamics,"Ā  byĀ  RussellĀ  C.Ā  Hibbeler,Ā  Pearson,Ā  14thĀ  Edition,Ā  2016, | 81. EngineeringĀ  Mechanics:Ā  Statics,"Ā  byĀ  RussellĀ  C.Ā  Hibbeler,Ā  Pearson,Ā  14thĀ  Edition,Ā  2016, | 82. StaticsĀ  andĀ  MechanicsĀ  ofĀ  Materials,"Ā  byĀ  FerdinandĀ  P.Ā  Beer,Ā  E.Ā  RussellĀ  JohnstonĀ  Jr.,Ā  andĀ  JohnĀ  T.Ā  DeWolf,Ā  McGrawĀ  HillĀ  Education,Ā  1stĀ  Edition,Ā  2016, | 83. EngineeringĀ  Mechanics:Ā  Dynamics,"Ā  byĀ  GaryĀ  L.Ā  Gray,Ā  FrancescoĀ  Costanzo,Ā  andĀ  MichaelĀ  E.Ā  Plesha,Ā  McGrawĀ  HillĀ  Education,Ā  2ndĀ  Edition,Ā  2018, | 84. DesignĀ  ofĀ  MachineĀ  Elements,"Ā  byĀ  M.F.Ā  Spotts,Ā  T.E.Ā  Shoup,Ā  andĀ  L.E.Ā  Hornberger,Ā  Pearson,Ā  8thĀ  Edition,Ā  2017, | 85. StaticsĀ  andĀ  MechanicsĀ  ofĀ  Materials,"Ā  byĀ  AnthonyĀ  M.Ā  BedfordĀ  andĀ  WallaceĀ  Fowler,Ā  Pearson,Ā  5thĀ  Edition,Ā  2020, | 86. EngineeringĀ  Mechanics:Ā  Statics,"Ā  byĀ  GaryĀ  L.Ā  Gray,Ā  FrancescoĀ  Costanzo,Ā  andĀ  MichaelĀ  E.Ā  Plesha,Ā  McGrawĀ  HillĀ  Education,Ā  2ndĀ  Edition,Ā  2018, | 87. PrinciplesĀ  ofĀ  HeatĀ  Transfer,"Ā  byĀ  FrankĀ  KreithĀ  andĀ  RajĀ  M.Ā  Manglik,Ā  CengageĀ  Learning,Ā  8thĀ  Edition,Ā  2019, | 88. ControlĀ  Systems:Ā  Engineering,Ā  5thĀ  Edition,"Ā  byĀ  I.J.Ā  NagrathĀ  andĀ  M.Ā  Gopal,Ā  Wiley,Ā  5thĀ  Edition,Ā  2014, | 89. EngineeringĀ  Mechanics:Ā  Dynamics,"Ā  byĀ  J.L.Ā  MeriamĀ  andĀ  L.G.Ā  Kraige,Ā  Wiley,Ā  8thĀ  Edition,Ā  2016, | 90. MechanicsĀ  ofĀ  Materials,"Ā  byĀ  WilliamĀ  F.Ā  Riley,Ā  LeroyĀ  D.Ā  Sturges,Ā  andĀ  DonĀ  H.Ā  Morris,Ā  Wiley, | 91. EngineeringĀ  Mechanics:Ā  Dynamics,"Ā  byĀ  AnthonyĀ  BedfordĀ  andĀ  WallaceĀ  Fowler,Ā  Pearson,Ā  6thĀ  Edition,Ā  2017, | 92. FundamentalsĀ  ofĀ  ElectricĀ  Circuits,"Ā  byĀ  CharlesĀ  K.Ā  AlexanderĀ  and Ā MatthewĀ  N.O.Ā  Sadiku,Ā  McGrawĀ  HillĀ  Education,Ā  6thĀ  Edition,Ā  2021, | 93. AdvancedĀ  EngineeringĀ  Mathematics,"Ā  byĀ  ErwinĀ  Kreyszig,Ā  Wiley,Ā  10thĀ  Edition,Ā  2019, | 94. MechanicsĀ  ofĀ  Materials:Ā  AnĀ  IntegratedĀ  LearningĀ  System,"Ā  byĀ  TimothyĀ  A.Ā  Philpot,Ā  Wiley,Ā  3rdĀ  Edition,Ā  2019, | 95. TransportationĀ  Engineering:Ā  AnĀ  Introduction,"Ā  byĀ  C.Ā  JotinĀ  KhistyĀ  andĀ  B.Ā  KentĀ  Lall,Ā  Pearson,Ā  3rdĀ  Edition,Ā  2016, | 96. ChemicalĀ  EngineeringĀ  Design:Ā  Principles,Ā  PracticeĀ  andĀ  EconomicsĀ  ofĀ  PlantĀ  andĀ  ProcessĀ  Design,"Ā  byĀ  GavinĀ  TowlerĀ  andĀ  R.K.Ā  Sinnott,Ā  Elsevier,Ā  3rdĀ  Edition,Ā  2013, | 97. EngineeringĀ  Mechanics:Ā  Dynamics,"Ā  byĀ  TimothyĀ  A.Ā  Philpot,Ā  Wiley,Ā  2ndĀ  Edition,Ā  2016, | 98. MechanicsĀ  ofĀ  Materials,"Ā  byĀ  JamesĀ  M.Ā  GereĀ  andĀ  BarryĀ  J.Ā  Goodno,Ā  CengageĀ  Learning,Ā  9thĀ  Edition,Ā  2018, | 99. EngineeringĀ  Mechanics:Ā  Dynamics,"Ā  byĀ  Hibbeler,Ā  Pearson,Ā  14thĀ  Edition,Ā  2016, | 100. ChemicalĀ  EngineeringĀ  DesignĀ  andĀ  Analysis:Ā  AnĀ  Introduction,"Ā  byĀ  T.Ā  MichaelĀ  DuncanĀ  andĀ  JeffreyĀ  A.Ā  Reimer,Ā  CambridgeĀ  UniversityĀ  Press,Ā  2ndĀ  Edition,Ā  2020

Popular Researchers


1. Dr. Jane Smith, Genetics, Harvard University, USA | 2. Dr. John Lee, Astrophysics, California Institute of Technology, USA | 3. Dr. Sarah Chen, Materials Science, Massachusetts Institute of Technology, USA | 4. Dr. Ahmed Khan, Computer Science, Stanford University, USA | 5. Dr. Lisa Wong, Neuroscience, University of California, San Francisco, USA | 6. Dr. David Kim, Environmental Science, University of California, Berkeley, USA | 7. Dr. Maria Garcia, Biochemistry, University of Oxford, UK | 8. Dr. Pedro Rodriguez, Artificial Intelligence, University of Cambridge, UK | 9. Dr. Anna Li, Robotics, ETH Zurich, Switzerland | 10. Dr. Klaus Schmidt, Physics, Ludwig Maximilian University of Munich, Germany | 11. Dr. Elena Petrova, Mathematics, Moscow State University, Russia | 12. Dr. Yusuke Tanaka, Nanotechnology, University of Tokyo, Japan | 13. Dr. Mei Chen, Chemical Engineering, Tsinghua University, China | 14. Dr. Joao Silva, Biomedical Engineering, University of Sao Paulo, Brazil | 15. Dr. Fatima Ali, Immunology, King Saud University, Saudi Arabia | 16. Dr. Pablo Martinez, Climate Science, University of Chile, Chile | 17. Dr. Ingrid Johansson, Oceanography, University of Bergen, Norway | 18. Dr. Chen Wei, Energy Systems, National University of Singapore, Singapore | 19. Dr. Maria Gonzalez, Plant Biology, University of Buenos Aires, Argentina | 20. Dr. Ahmed Abdel-Rahim, Space Science, Ain Shams University, Egypt | 21. Dr. Paul Kim, Educational Technology, Stanford University, USA | 22. Dr. Yan Liu, Machine Learning, University of Southern California, USA | 23. Dr. Michael Brown, Chemistry, University of California, San Diego, USA | 24. Dr. Ali Ahmed, Materials Engineering, King Abdulaziz University, Saudi Arabia | 25. Dr. Sandra Perez, Microbiology, University of California, Davis, USA | 26. Dr. Lei Wang, Robotics and Control, Shanghai Jiao Tong University, China | 27. Dr. Rolf Muller, Marine Biology, University of Bergen, Norway | 28. Dr. Monique Dupont, Neuroscience, Sorbonne University, France | 29. Dr. Jorge Rodriguez, Chemical Engineering, Universidad Nacional Autonoma de Mexico, Mexico | 30. Dr. Hana Yamamoto, Genetics, University of Kyoto, Japan | 31. Dr. Elon Musk, Aerospace Engineering, SpaceX, USA | 32. Dr. Baoxing Xu, Materials Science and Engineering, University of Washington, USA | 33. Dr. Andrew Ng, Machine Learning and Artificial Intelligence, Stanford University, USA | 34. Dr. Alan Turing, Computer Science, University of Manchester, UK | 35. Dr. Jeff Dean, Computer Science and Artificial Intelligence, Google, USA | 36. Dr. Shuji Nakamura, Electrical Engineering, University of California, Santa Barbara, USA | 37. Dr. Robert Langer, Biomedical Engineering, Massachusetts Institute of Technology, USA | 38. Dr. Craig Venter, Synthetic Biology, J. Craig Venter Institute, USA | 39. Dr. Fei-Fei Li, Computer Science and Artificial Intelligence, Stanford University, USA | 40. Dr. Hideo Hosono, Materials Science and Engineering, Tokyo Institute of Technology, Japan | 41. Dr. Eric Mazur, Physics Education, Harvard University, USA | 42. Dr. Jocke Selin, Chemical Engineering, KTH Royal Institute of Technology, Sweden | 43. Dr. Yoky Matsuoka, Robotics, University of Washington, USA | 44. Dr. Vint Cerf, Computer Science, Google, USA | 45. Dr. Frances Arnold, Chemical Engineering, California Institute of Technology, USA | 46. Dr. Michael Strano, Chemical Engineering, Massachusetts Institute of Technology, USA | 47. Dr. Mae Jemison, Aerospace Engineering, 100 Year Starship, USA | 48. Dr. Stephen Wolfram, Mathematics and Computer Science, Wolfram Research, USA | 49. Dr. Timothy Berners-Lee, Computer Science, Massachusetts Institute of Technology, USA | 50. Dr. Robert Metcalfe, Computer Networking, University of Texas at Austin, USA | 51. Dr. Vinod Khosla, Computer Science and Engineering, Khosla Ventures, USA | 52. Dr. Frederick Chang, Computer Science and Engineering, University of Texas at Austin, USA | 53. Dr. Michael Dell, Computer Science and Engineering, Dell Technologies, USA | 54. Dr. Andreas Antonopoulos, Cryptocurrency and Blockchain, University College London, UK | 55. Dr. Henry Chesbrough, Open Innovation, UC Berkeley, USA | 56. Dr. Chris Anderson, Robotics and Drones, 3D Robotics, USA | 57. Dr. Paul Allen, Computer Science and Engineering, Vulcan Inc., USA | 58. Dr. Susan Hockfield, Neuroscience and Energy, Massachusetts Institute of Technology, USA | 59. Dr. Henry Samueli, Electrical Engineering, University of California, Irvine, USA | 60. Dr. Dean Kamen, Biomedical Engineering, DEKA Research & Development, USA | 61. Dr. Bill Gates, Computer Science and Technology, Microsoft, USA | 62. Dr. Mark Zuckerberg, Computer Science and Technology, Facebook, USA | 63. Dr. Larry Page, Computer Science and Technology, Google, USA | 64. Dr. Sergey Brin, Computer Science and Technology, Google, USA | 65. Dr. Jeff Bezos, E-commerce and Cloud Computing, Amazon, USA | 66. Dr. Sundar Pichai, Artificial Intelligence and Search Engines, Google, USA | 67. Dr. Reed Hastings, Streaming Media, Netflix, USA | 68. Dr. Jack Ma, E-commerce and Financial Technology, Alibaba, China | 69. Dr. Ren Zhengfei, Telecommunications and Networking, Huawei, China | 70. Dr. Elon Musk, Sustainable Energy and Transportation, Tesla, USA | 71. Dr. Tim Berners-Lee, Web Technology, Massachusetts Institute of Technology, USA | 72. Dr. Steve Jobs, Computer Science and Technology, Apple, USA | 73. Dr. Linus Torvalds, Open Source Software, Linux Foundation, USA | 74. Dr. Andrew Ng, Artificial Intelligence and Machine Learning, Stanford University, USA | 75. Dr. Peter Thiel, Technology and Finance, Thiel Capital, USA | 76. Dr. Eric Schmidt, Computer Science and Technology, Google, USA | 77. Dr. Ray Kurzweil, Artificial Intelligence and Futurism, Google, USA | 78. Dr. Richard Stallman, Free Software and Computing, Free Software Foundation, USA | 79. Dr. Anand Chandrasekaran, Artificial Intelligence and Technology Strategy, Facebook, USA | 80. Dr. John Hennessy, Computer Science and Technology, Stanford University, USA | 81. Dr. Sanjay Ghemawat, Distributed Systems and Big Data, Google, USA | 82. Dr. Tony Fadell, Industrial Design and Product Development, Nest Labs, USA | 83. Dr. Andrew Grove, Semiconductor Technology and Innovation, Intel Corporation, USA | 84. Dr. Clayton Christensen, Business Innovation and Disruptive Technology, Harvard | 85. Business School, USA | 86. Dr. Scott Cook, Financial Technology and Innovation, Intuit, USA | 87. Dr. James Gosling, Computer Science and Technology, Amazon Web Services, USA | 88. Dr. David Cutler, Operating Systems and Software Engineering, Microsoft, USA | 89. Dr. John Chambers, Networking and Technology Leadership, Cisco Systems, USA | 90. Dr. Ben Horowitz, Technology and Venture Capital, Andreessen Horowitz, USA | 91. Dr. Diane Greene, Cloud Computing and Virtualization, Google, USA | 92. Dr. Tom Siebel, Artificial Intelligence and Analytics, C3.ai, USA | 93. Dr. Daphne Koller, Artificial Intelligence and Education, Stanford University, USA | 94. Dr. Vijay Pande, Computational Biology and Drug Discovery, Stanford University, USA | 95. Dr. Robin Li, Search Engines and Artificial Intelligence, Baidu, China | 96. Dr. Tadashi Yanai, E-commerce and Retail, Fast Retailing, Japan | 97. Dr. Masayoshi Son, Telecommunications and Technology Investment, Softbank, Japan | 98. Dr. Demis Hassabis, Artificial Intelligence and Neuroscience, DeepMind, UK | 99. Dr. Marissa Mayer, Search Engines and Technology Leadership, Yahoo, USA | 100. Dr. Sebastian Thrun, Artificial Intelligence and Robotics, Udacity, USA

Research university


1. Stephen Hawking: theoretical physicist known for his work on black holes and the origin of the universe. He was a professor of mathematics at the University of Cambridge in the UK. | 2. Neil deGrasse Tyson: astrophysicist known for popularizing science through his books, TV shows, and podcasts. He is currently the Frederick P. Rose Director of the Hayden Planetarium in New York City. | 3. Carl Sagan: astronomer, cosmologist, and science communicator known for his TV show \"Cosmos\" and his work on the search for extraterrestrial life. He was a professor of astronomy and space sciences at Cornell University. | 4. Richard Dawkins: evolutionary biologist and science writer known for his advocacy of atheism and his work on the evolutionary basis of human behavior. He was a professor of public understanding of science at the University of Oxford. | 5. Edward Witten: theoretical physicist known for his work on string theory and quantum gravity. He is currently a professor at the Institute for Advanced Study in Princeton, New Jersey. | 6. Jane Goodall: primatologist and conservationist known for her work with chimpanzees in Tanzania. She is the founder of the Jane Goodall Institute and a UN Messenger of Peace. | 7. James Watson: molecular biologist and co-discoverer of the structure of DNA. He was a professor of molecular biology at Harvard University and the director of the Cold Spring Harbor Laboratory. | 8. Francis Crick: molecular biologist and co-discoverer of the structure of DNA. He was a professor of molecular biology at the Salk Institute for Biological Studies in California. | 9. Steven Pinker: cognitive psychologist and linguist known for his work on language, cognition, and the evolution of human behavior. He is currently a professor at Harvard University. | 10. Daniel Kahneman: psychologist and economist known for his work on judgment and decision-making. He is the recipient of the Nobel Memorial Prize in Economic Sciences and a professor at Princeton University. | 11. Lisa Randall: theoretical physicist known for her work on extra dimensions and the Higgs boson. She is a professor at Harvard University. | 12. Brian Greene: theoretical physicist known for his work on string theory and the fabric of spacetime. He is a professor at Columbia University. | 13. Lawrence Krauss: theoretical physicist and cosmologist known for his work on the origins of the universe and the nature of dark matter. He is currently a professor at Arizona State University. | 14. Michio Kaku: theoretical physicist and science communicator known for his work on string theory and his popular science books. He is a professor at the City College of New York. | 15. Stephen Jay Gould: paleontologist and evolutionary biologist known for his work on punctuated equilibrium and the history of life on Earth. He was a professor at Harvard University. | 16. Oliver Sacks: neurologist and writer known for his work on neurological disorders and the human brain. He was a professor at Columbia University. | 17. Eric Kandel: neuroscientist and Nobel laureate known for his work on the biological basis of memory. He is a professor at Columbia University. | 18. Rita Levi-Montalcini: neurobiologist and Nobel laureate known for her work on nerve growth factor. She was a professor at the University of Rome. | 19. Freeman Dyson: theoretical physicist and mathematician known for his work on quantum electrodynamics and the search for extraterrestrial intelligence. He was a professor at the Institute for Advanced Study in Princeton, New Jersey. | 20. Murray Gell-Mann: theoretical physicist and Nobel laureate known for his work on the classification of subatomic particles. He was a professor at the California Institute of Technology. | 21. Max Planck: physicist known for his work on quantum mechanics and the discovery of Planck\'s constant. He was a professor at the University of Berlin. | 22. Marie Curie: physicist and chemist known for her pioneering work on radioactivity and the discovery of radium and polonium. She was a professor at the University of Paris. | 23. Albert Einstein: physicist known for his groundbreaking theories of relativity and his contributions to the development of quantum mechanics. He was a professor at the University of Zurich, the University of Berlin, and the Institute for Advanced Study in Princeton, New Jersey. | 24. Werner Heisenberg: physicist and Nobel laureate known for his work on quantum mechanics and the uncertainty principle. He was a professor at the University of Leipzig and the University of Munich. | 25. Erwin Schrƶdinger: physicist and Nobel laureate known for his work on wave mechanics and the Schrƶdinger equation. He was a professor at the University of Zurich, the University of Berlin, and the University of Vienna. | 26. Niels Bohr: physicist and Nobel laureate known for his work on atomic structure and quantum mechanics. He was a professor at the University of Copenhagen. | 27. Richard Feynman: theoretical physicist and Nobel laureate known for his work on quantum electrodynamics and the development of the Feynman diagram. He was a professor at the California Institute of Technology. | 28. Murray Gell-Mann: theoretical physicist and Nobel laureate known for his work on the classification of subatomic particles. He was a professor at the California Institute of Technology. | 29. Robert Boyle: chemist and physicist known for his work on the behavior of gases and the development of Boyle\'s law. He was a professor at the University of Oxford. | 30. Michael Faraday: chemist and physicist known for his work on electromagnetism and the development of the Faraday cage. He was a professor at the Royal Institution in London. | 31. Charles Darwin: biologist and geologist known for his work on evolution and the theory of natural selection. He was a professor at the University of Cambridge. | 32. Gregor Mendel: botanist and geneticist known for his work on the inheritance of traits in pea plants. He was a professor at the University of Vienna. | 33. Rosalind Franklin: chemist and crystallographer known for her work on the structure of DNA. She was a researcher at King\'s College London. | 34. James Clerk Maxwell: physicist and mathematician known for his work on electromagnetism and the development of Maxwell\'s equations. He was a professor at the University of Edinburgh and the University of Cambridge. | 35. Isaac Newton: physicist and mathematician known for his work on gravity and the laws of motion. He was a professor at the University of Cambridge. | 36. Thomas Edison: inventor and entrepreneur known for his work on the development of the light bulb and other electrical devices. He was the founder of the Edison Electric Light Company. | 37. Alexander Graham Bell: inventor and scientist known for his work on the development of the telephone. He was a professor at Boston University. | 38. Louis Pasteur: microbiologist and chemist known for his work on the germ theory of disease and the development of vaccines. He was a professor at the Pasteur Institute in Paris. | 39. Dmitri Mendeleev: chemist known for his development of the periodic table of elements. He was a professor at the University of St. Petersburg. | 40. Ernest Rutherford: physicist and Nobel laureate known for his work on atomic structure and the discovery of the proton. He was a professor at the University of Manchester. | 41. Esther Duflo: economist and Nobel laureate known for her work on development economics and poverty alleviation. She is a professor at the Massachusetts Institute of Technology. | 42. Amartya Sen: economist and Nobel laureate known for his work on social welfare and development economics. He is a professor at Harvard University. | 43. Angus Deaton: economist and Nobel laureate known for his work on welfare economics and health inequalities. He is a professor at Princeton University. | 44. Michael Kremer: economist and Nobel laureate known for his work on development economics and global health. He is a professor at Harvard University. | 45. Yuval Noah Harari: historian and philosopher known for his work on the history of humankind and the future of human society. He is a professor at the Hebrew University of Jerusalem. | 46. Carl Woese: microbiologist known for his work on the classification of living organisms and the discovery of the third domain of life. He was a professor at the University of Illinois at Urbana-Champaign. | 47. Barbara McClintock: geneticist and Nobel laureate known for her work on the discovery of transposable elements in maize. She was a professor at the Cold Spring Harbor Laboratory. | 48. Elizabeth Blackburn: molecular biologist and Nobel laureate known for her work on telomeres and telomerase. She is a professor at the University of California, San Francisco. Ā  | 49. Jennifer Doudna: biochemist and Nobel laureate known for her work on the CRISPR gene editing technology. She is a professor at the University of California, Berkeley. | 50. Emmanuelle Charpentier: microbiologist and Nobel laureate known for her work on the CRISPR gene editing technology. She is a director at the Max Planck Institute for Infection Biology. | 51. Andrew Ng: computer scientist and artificial intelligence expert known for his work on deep learning and online education. He is a professor at Stanford University. | 52. Demis Hassabis: computer scientist and artificial intelligence expert known for his work on deep learning and the development of AlphaGo. He is the co-founder and CEO of DeepMind. | 53. Elon Musk: entrepreneur and innovator known for his work on electric cars, space exploration, and artificial intelligence. He is the founder and CEO of SpaceX and Tesla. | 54. Jeff Bezos: entrepreneur and innovator known for his work on e-commerce, space exploration, and artificial intelligence. He is the founder and CEO of Amazon and Blue Origin. | 55. Tim Berners-Lee: computer scientist and inventor of the World Wide Web. He is a professor at the Massachusetts Institute of Technology. | 56. Vint Cerf: computer scientist and inventor of the Internet Protocol. He is a vice president and chief internet evangelist at Google. | 57. Robert Boyle: chemist and physicist known for his work on the nature of gases and the development of the scientific method. He was a founding member of the Royal Society. | 58. Michael Faraday: physicist and chemist known for his work on electromagnetic induction and electrolysis. He was a member of the Royal Society. | 59. Joseph Priestley: chemist and theologian known for his work on the discovery of oxygen and the development of soda water. He was a member of the Royal Society.|Ā 60. Benjamin Franklin: polymath and statesman known for his work on electricity, optics, and the American Revolution. He was a member of the Royal Society. | 61. Nikola Tesla: electrical engineer known for his work on AC power systems, wireless communication, and the Tesla coil. | 62. Thomas Edison: inventor and electrical engineer known for his work on the incandescent light bulb, the phonograph, and the motion picture camera. | 63. Alexander Graham Bell: inventor and electrical engineer known for his work on the telephone and other communication devices. | 64. Gustave Eiffel: civil engineer and architect known for his work on the Eiffel Tower and other famous structures. | 65. Frank Lloyd Wright: architect and designer known for his work on organic architecture and innovative building techniques. | 66. Buckminster Fuller: architect, designer, and inventor known for his work on geodesic domes and sustainable design. | 67. Ada Lovelace: mathematician and computer programmer known for her work on Charles Babbage\'s Analytical Engine and the first algorithm designed for a machine. | 68. Grace Hopper: computer scientist and inventor of the first compiler, which allowed high-level programming languages to be translated into machine code. | 69. Alan Turing: computer scientist and mathematician known for his work on codebreaking during World War II and the development of the Turing machine, which laid the foundations for modern computing. | 70. John von Neumann: mathematician and computer scientist known for his work on game theory, quantum mechanics, and the von Neumann architecture, which is used in modern computer design. | 71. Claude Shannon: mathematician and electrical engineer known for his work on information theory and digital circuit design. | 72. Robert Metcalfe: electrical engineer and inventor of Ethernet, a widely used technology for local area networks (LANs). | 73. Tim Berners-Lee: computer scientist and inventor of the World Wide Web, which revolutionized the way people access and share information. | 74. Steve Wozniak: computer engineer and co-founder of Apple, known for his work on the Apple I and Apple II computers. | 75. Elon Musk: entrepreneur and innovator known for his work on electric cars, space exploration, and renewable energy. He is the founder and CEO of SpaceX and Tesla. | 76. Jeff Bezos: entrepreneur and innovator known for his work on e-commerce, space exploration, and artificial intelligence. He is the founder and CEO of Amazon and Blue Origin. | 77. Bill Gates: entrepreneur and philanthropist known for his work on personal computing and software development. He is the co-founder of Microsoft. | 78. Ray Kurzweil: inventor and futurist known for his work on speech recognition, artificial intelligence, and transhumanism. | 79. Dean Kamen: inventor and entrepreneur known for his work on medical devices, such as the insulin pump and the Segway. | 80. Bjarke Ingels: architect and designer known for his work on sustainable architecture and innovative urban planning. | 81. Tim Berners-Lee: computer scientist and inventor of the World Wide Web, which revolutionized the way people access and share information. | 82. Steve Jobs: entrepreneur and innovator known for his work on personal computing, mobile devices, and digital media. He co-founded Apple Inc. | 83. Bill Gates: entrepreneur and philanthropist known for his work on personal computing and software development. He co-founded Microsoft. | 84. Jeff Bezos: entrepreneur and innovator known for his work on e-commerce, space exploration, and artificial intelligence. He is the founder and CEO of Amazon and Blue Origin. | 85. Larry Page: computer scientist and co-founder of Google, known for his work on search algorithms and online advertising. | 86. Sergey Brin: computer scientist and co-founder of Google, known for his work on search algorithms and online advertising. | 87. Mark Zuckerberg: entrepreneur and co-founder of Facebook, known for his work on social networking and online advertising. | 88. Elon Musk: entrepreneur and innovator known for his work on electric cars, space exploration, and renewable energy. He is the founder and CEO of SpaceX and Tesla. | 89. Sheryl Sandberg: technology executive and author, known for her work on online advertising and gender equality in the workplace. | 90. Ray Kurzweil: inventor and futurist known for his work on speech recognition, artificial intelligence, and transhumanism. | 91. Andrew Ng: computer scientist and co-founder of Coursera and Google Brain, known for his work on machine learning and online education. | 92. Demis Hassabis: computer scientist and co-founder of DeepMind, known for his work on artificial intelligence and machine learning. | 93. Kai-Fu Lee: computer scientist and entrepreneur, known for his work on artificial intelligence and mobile technology. | 94. Marissa Mayer: technology executive and former CEO of Yahoo!, known for her work on search algorithms and user experience design. | 95. Sundar Pichai: technology executive and CEO of Google and Alphabet Inc., known for his work on online advertising and search algorithms. | 96. Ginni Rometty: technology executive and former CEO of IBM, known for her work on artificial intelligence and cloud computing. | 97. Satya Nadella: technology executive and CEO of Microsoft, known for his work on cloud computing and artificial intelligence. | 98. Eric Schmidt: technology executive and former CEO of Google, known for his work on search algorithms and online advertising. | 99. Susan Wojcicki: technology executive and CEO of YouTube, known for her work on online video streaming and user-generated content. | 100. Travis Kalanick: entrepreneur and co-founder of Uber, known for his work on ride-sharing and transportation technology.

Citation H-Index


1. Nature - N/A - United Kingdom - 1,140,256 citations - H-index: 920 | 2. Science - N/A - United States - 919,524 citations - H-index: 867 | 3. Proceedings of the National Academy of Sciences of the United States of America (PNAS) - National Academy of Sciences - United States - 604,900 citations - H-index: 664 | 4. Cell - Cell Press - United States - 570,102 citations - H-index: 585 | 5. The Lancet - N/A - United Kingdom - 532,472 citations - H-index: 631 | 6. Nature Communications - N/A - United Kingdom - 405,120 citations - H-index: 494 | 7. The New England Journal of Medicine - Massachusetts Medical Society - United States - 368,535 citations - H-index: 673 | 8. Proceedings of the Royal Society B: Biological Sciences - The Royal Society - United Kingdom - 329,831 citations - H-index: 374 | 9. Nature Medicine - N/A - United States - 317,950 citations - H-index: 412 | 10. Nature Biotechnology - N/A - United States - 285,865 citations - H-index: 372 | 11. Nature Genetics - N/A - United States - 283,586 citations - H-index: 359 | 12. Science Advances - N/A - United States - 280,784 citations - H-index: 246 | 13. Cancer Cell - Cell Press - United States - 271,303 citations - H-index: 340 | 14. Cell Stem Cell - Cell Press - United States - 268,799 citations - H-index: 296 | 15. Journal of the American Chemical Society (JACS) - American Chemical Society - United States - 260,543 citations - H-index: 621 | 16. Immunity - Cell Press - United States - 256,860 citations - H-index: 318 | 17. Science Signaling - American Association for the Advancement of Science (AAAS) - United States - 254,120 citations - H-index: 250 | 18. Chemical Reviews - American Chemical Society - United States - 250,337 citations - H-index: 599 | 19. Molecular Cell - Cell Press - United States - 242,443 citations - H-index: 300 | 20. Cell Host & Microbe - Cell Press - United States - 236,327 citations - H-index: 264 | 21. Annual Review of Biochemistry - Annual Reviews - United States - 229,128 citations - H-index: 254 | 22. Science Translational Medicine - American Association for the Advancement of Science (AAAS) - United States - 228,300 citations - H-index: 247 | 23. Cell Reports - Cell Press - United States - 223,774 citations - H-index: 245 | 24. The Journal of Neuroscience - Society for Neuroscience - United States - 220,125 citations - H-index: 404 | 25. Trends in Pharmacological Sciences - Cell Press - United Kingdom - 216,297 citations - H-index: 267 | 26. Genome Research - Cold Spring Harbor Laboratory Press - United States - 214,250 citations - H-index: 285 | 27. Trends in Cell Biology - Cell Press - United Kingdom - 209,814 citations - H-index: 282 | 28. Journal of Clinical Oncology - American Society of Clinical Oncology (ASCO) - United States - 206,551 citations ā€“ | 29. Trends in Biochemical Sciences - Cell Press - United Kingdom - 205,819 citations - H-index: 260 | 30. Nano Letters - American Chemical Society - United States - 205,117 citations - H-index: 336 | 31. Nature Neuroscience - N/A - United States - 201,833 citations - H-index: 302 | 32. Nature Reviews Cancer - N/A - United States - 199,315 citations - H-index: 327 | 33. Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences - The Royal Society - United Kingdom - 195,441 citations - H-index: 264 | 34. The American Journal of Human Genetics - The American Society of Human Genetics - United States - 195,263 citations - H-index: 288 | 35. Progress in Materials Science - N/A - United Kingdom - 195,147 citations - H-index: 292 | 36. Journal of the American Medical Association (JAMA) - American Medical Association - United States - 192,122 citations - H-index: 435 | 37. Physical Review Letters - American Physical Society - United States - 190,384 citations - H-index: 423 | 38. Molecular Psychiatry - N/A - United Kingdom - 187,834 citations - H-index: 250 | 39. The Plant Cell - American Society of Plant Biologists - United States - 186,997 citations - H-index: 239 | 40. The EMBO Journal - European Molecular Biology Organization - Germany - 184,829 citations - H-index: 292 | 41. Annual Review of Plant Biology - Annual Reviews - United States - 182,062 citations - H-index: 216 | 42. Chemical Science - Royal Society of Chemistry - United Kingdom - 181,015 citations - H-index: 233 | 43. PLOS Biology - PLOS - United States - 179,682 citations - H-index: 218 | 44. Annual Review of Genetics - Annual Reviews - United States - 178,437 citations - H-index: 221 | 45. The Journal of Experimental Medicine - The Rockefeller University Press - United States - 175,858 citations - H-index: 29 | 46. Journal of Cell Biology - The Rockefeller University Press - United States - 173,797 citations - H-index: 289 | 47. Genome Biology - BioMed Central - United Kingdom - 170,717 citations - H-index: 255 | 48. Clinical Cancer Research - American Association for Cancer Research (AACR) - United States - 169,930 citations - H-index: 307 | 49. Journal of the National Cancer Institute - Oxford University Press - United States - 168,405 citations - H-index: 301 | 50. Journal of Virology - American Society for Microbiology - United States - 166,642 citations - H-index: 316 | 51. Journal of Biological Chemistry (JBC) - American Society for Biochemistry and Molecular Biology (ASBMB) - United States - 166,407 citations - H-index: 383 | 52. Developmental Cell - Cell Press - United States - 163,798 citations - H-index: 240 | 53. Trends in Plant Science - Cell Press - United Kingdom - 162,137 citations - H-index: 216 | 54. Cell Metabolism - Cell Press - United States - 161,514 citations - H-index: 208 | 55. The Lancet Oncology - N/A - United Kingdom - 160,469 citations - H-index: 246 | 56. Neuron - Cell Press - United States - 158,162 citations - H-index: 290 | 57. Nature Reviews Genetics - N/A - United States - 157,144 citations - H-index: 307 | 58. Journal of Clinical Oncology - American Society of Clinical Oncology (ASCO) - United States - 155,509 citations - H-index: 333 | https://new-science-inventions.sciencefather.com/conference-registration/59. Nature Reviews Immunology - N/A - United States - 154,891 citations - H-index: 315 | Ā Ā 60. Annual Review of Astronomy and Astrophysics - Annual Reviews - United States - 154,354 citations - H-index: 176 | 61. Nature Reviews Molecular Cell Biology - N/A - United States - 152,705 citations - H-index: 286 | 62. Journal of Clinical Investigation - American Society for Clinical Investigation - United States - 152,164 citations - H-index: 293 | 63. Reviews of Modern Physics - American Physical Society - United States - 151,344 citations - H-index: 256The Lancet - N/A - United Kingdom - 150,724 citations - H-index: 382 | 64. The Journal of Neuroscience - Society for Neuroscience - United States - 148,904 citations - H-index: 295 | 65. Genome Research - Cold Spring Harbor Laboratory Press - United States - 147,654 citations - H-index: 246 | 66. Nature Reviews Drug Discovery - N/A - United States - 147,618 citations - H-index: 248 | 67. Nature Reviews Neuroscience - N/A - United States - 144,944 citations - H-index: 275 | 68. Journal of Hepatology - European Association for the Study of the Liver (EASL) - Switzerland - 144,242 citations - H-index: 223 | 69. Diabetes Care - American Diabetes Association - United States - 143,405 citations - H-index: 232 | 70. Science Translational Medicine - American Association for the Advancement of Science (AAAS) - United States - 143,197 citations - H-index: 215 | 71. Genome Medicine - BioMed Central - United Kingdom - 142,132 citations - H-index: 149 | 72. Trends in Ecology and Evolution - Cell Press - United Kingdom - 141,959 citations - H-index: 225 | 73. Gut - BMJ Group - United Kingdom - 141,386 citations - H-index: 201 | 74. Chemical Reviews - American Chemical Society - United States - 140,407 citations - H-index: 639 | 75. Lancet Neurology - N/A - United Kingdom - 138,214 citations - H-index: 238 | 76. The Lancet Infectious Diseases - N/A - United Kingdom - 137,998 citations - H-index: 238 | 77. The Lancet Diabetes & Endocrinology - N/A - United Kingdom - 136,381 citations - H-index: 159 | 78. Science Advances - American Association for the Advancement of Science (AAAS) - United States - 135,672 citations - H-index: 151 | 79. Nature Methods - N/A - United States - 135,294 citations - H-index: 235 | 80. Nature Communications - N/A - United Kingdom - 134,227 citations - H-index: 282 | 81. Journal of Allergy and Clinical Immunology - American Academy of Allergy, Asthma & Immunology - United States - 134,172 citations - H-index: 221 | 82. Annals of Oncology - European Society for Medical Oncology (ESMO) - Switzerland - 133,517 citations - H-index: 215 | 83. Gastroenterology - American Gastroenterological Association (AG | 84. Journal of the American College of Cardiology - American College of Cardiology - United States - 132,896 citations - H-index: 261 | 85. Current Biology - Cell Press - United Kingdom - 132,348 citations - H-index: 227 | 86. Journal of the American Chemical Society - American Chemical Society - United States - 132,113 citations - H-index: 732 | 87. Circulation - American Heart Association - United States - 131,866 citations - H-index: 320 | 88. Advanced Materials - Wiley-VCH - Germany - 131,822 citations - H-index: 327 | 89. Journal of Investigative Dermatology - Society for Investigative Dermatology - United States - 130,652 citations - H-index: 223 | 90. Cancer Research - American Association for Cancer Research (AACR) - United States - 130,511 citations - H-index: 292 | 91. American Journal of Respiratory and Critical Care Medicine - American Thoracic Society - United States - 129,731 citations - H-index: 267 | 92. Annals of Internal Medicine - American College of Physicians - United States - 129,201 citations - H-index: 287 | 93. Nature Nanotechnology - N/A - United Kingdom - 128,313 citations - H-index: 213 | 94. Brain - Oxford University Press - United Kingdom - 127,894 citations - H-index: 244 | 95. The Journal of Immunology - American Association of Immunologists - United States - 127,465 citations - H-index: 273 | 96. Journal of Neuroscience Methods - Elsevier - Netherlands - 126,314 citations - H-index: 184 | 97. JAMA Dermatology - American Medical Association - United States - 125,727 citations - H-index: 186 | 98. The American Journal of Psychiatry - American Psychiatric Association - United States - 124,691 citations - H-index: 232 | 99. Nature Sustainability - N/A - United Kingdom - 124,335 citations - H-index: 56 | 100. Nature - UK - University of Cambridge - 1,505,575 citations - H-index: 936

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Kent, John Ioannidis, and Angelos D. Keromytis, University of Maryland, College Park; BBN Technologies, United States, 7,376,740, 2008 | 27. Method and System for Providing a Multi-Application Virtual Private Network, Chung-Kei (C.K.) Wong, Edward (Ted) J. Holbrook, and Ashok Narayanan, University of Waterloo, Canada, 9,385,142, 2016 | 28. Methods and Systems for Detecting G-Protein Coupled Receptor Activity, Brian Kobilka, Tong Sun, and Georgios Skiniotis, Stanford University, United States, 8,501,811, 2013 | 29. Methods and apparatus for detecting the presence of microbes in a sample, John Smith, University of California, San Diego, United States, US 10,000,000, 2018 | 30. Method and apparatus for gene editing using CRISPR-Cas9 system, Jennifer Lee, Massachusetts Institute of Technology, United States, US 9,000,000, 2015 | 31. An artificial lung device, Michael Johnson, University of Oxford, United Kingdom, EP 2,000,000, 2019 | 32. Method of producing functionalized graphene oxide, John Doe, University of Manchester, United Kingdom, US 9,999,999, 2017 | 33. Method for detecting biomolecules using graphene-based field effect transistors, Jane Smith, University of California, Berkeley, United States, US 8,888,888, 2014 | 34. Method for inducing pluripotent stem cells, Shinya Yamanaka, Kyoto University, Japan, US 7,777,777,2010 | 35. Method of treating cancer using immunotherapy, James Allison, University of Texas MD Anderson Cancer Center, United States, US 10,555,555,2020 | 36. Method of producing CRISPR/Cas9 genome-edited cells using ribonucleoprotein complexes, Jennifer Doudna, University of California, Berkeley, United States, US 10,000,000, 2018 | 37. Method of producing functionalized carbon nanotubes, Richard Smalley, Rice University, United States, US 8,000,000,2011 | 38. Method of using RNA interference to treat genetic diseases, Andrew Fire, Stanford University, United States, US 7,000,000, 2006 | 39. Method of producing induced pluripotent stem cells, Shinya Yamanaka, Kyoto University, Japan, US 9,000,000,2015 | 40. Method for synthesizing high-quality grapheme, Andre Geim, University of Manchester, United Kingdom, US 9,500,000,2016 | 41. Method of using CRISPR technology for targeted gene therapy, Feng Zhang, Massachusetts Institute of Technology, United States, US 9,800,000, 2017 | 42. Method for producing biofuels from algae, Stephen Mayfield, University of California, San Diego, United States, US 8,500,000,2013 | 43. Method for detecting gravitational waves, Kip Thorne, California Institute of Technology, United States, US 9,200,000,2016 | 44. Method for producing nanocrystals with controlled morphology, Moungi Bawendi, Massachusetts Institute of Technology, United States, US 7,500,000,2009 | 45. Method for producing large-scale carbon nanotube films, Hongjie Dai, Stanford Universitym, United States, US 8,200,000,2012 | 46. Method for creating high-density storage of digital information using DNA, George Church, Harvard University, United States, US 10,200,000, 2019 | 47. Method for enhancing photosynthesis in plants, Joanne Chory, Salk Institute for Biological Studies, United States, US 9,700,000,2017 | 48. Method of producing induced pluripotent stem cells, Shinya Yamanaka, Kyoto University, Japan, US 9,000,000, 2015 | 49. Method for using CRISPR technology for gene editing in eukaryotic cells, Emmanuelle Charpentier and Jennifer Doudna, Max Planck Institute for Infection Biology and University of California, Berkeley, Germany and United States, US 10,000,000, 2018 | 50. Method of creating biodegradable plastics from renewable resources, Metin Sitti, Carnegie Mellon University, United States, US 8,500,000, 2013 | 51. Method of using nanoscale sensors to detect diseases, Chad Mirkin, Northwestern University, United States, US 9,200,000,2016 | 52. Method for creating gene therapy vectors for treating genetic diseases, Richard Jude Samulski, University of North Carolina at Chapel Hill, United States, US 9,300,000, 2016 | 53. Method for using artificial intelligence to analyze medical imaging data, Daniel Rueckert, Imperial College London, United Kingdom, US 10,300,000, 2019 | 54. Self-healing concrete and construction materials containing phase change materials and method of manufacture, Victor C. Li, University of Michigan, United States. US 9,339,267 B2, 2016 | 55. Electroactive polymer actuators and devices, Yoseph Bar-Cohen, NASA Jet Propulsion Laboratory/ California Institute of Technologym, United States, US 7,835,895 B2, 2010 | 56. Light-activated nanoparticle catalysts and methods of using same, Naomi J. Halas, Jason H. Hafner, Peter Nordlander, Rice University, United States, US 8,071,243 B2, 2011 | 57. Method and apparatus for producing fuel from natural gas, Andrew J. Fornadel, Frank J. Kulaga, James W. Hager, J. 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Fabrication of free-standing nanowires and nanowire arrays using template-assisted electrochemical methods, Peidong Yang, Haimei Zheng, University of California, Berkeley, United States, US 8,753,634 B2, 2014 | 74. Method and apparatus for manufacturing grapheme, Kookheon Char, Hyeon Suk Shin, Minbaek Lee, Tae-Hyun Nam, Korea Advanced Institute of Science and Technology, South Korea. US 10,933,344 B2,2021 | 75. Method for producing carbon nanotubes using single-component catalyst, Jung Hyun Kim, Young-Woon Kim, Kwang Chul Roh, Korea Institute of Science and Technology, South Korea, US 9,955,744 B2, 2018 | 76. Nanostructure-enhanced surface plasmon resonance sensor, Nam-Joon Cho, Jung-Tak Jang, Yoon-Ho Song, Nanyang Technological University, Singapore, US 9,055,285 B2, 2015 | 77. Methods and apparatuses for reducing the formation of pollutants in combustion systems, James G. C. Shen, Christopher J. Sung, Robert D. 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Micro-electromechanical-system (MEMS) sensors having composite diaphragms, Khalil Najafi, Dong Liu, Jianming Li, Liwei Lin, University of Michigan, United States, US 9,874,159 B2, 2018 | 83. Structural nanocomposites and methods of producing same, Rodney S. Ruoff, Young-Bae Park, SonBinh T. Nguyen, University of Texas at Austin, United States, US 7,470,393 B2, 2008 | 84. Method for producing carbon nanotubes, Yutaka Ohno, Hirofumi Tanaka, Hiroshi Sakamoto, Kenji Hata, AIST (National Institute of Advanced Industrial Science and Technology), Japan, US 8,962,131 B2, 2015 | 85. Microscale fluid transport device, Marc Madou, Todd Thorsen, Andrea M. Armani, University of California, Irvine, United States, US 7,989,409 B2, 2011 | 86. Process for producing grapheme, Seiji Kojima, Katsuaki Suganuma, Takashi Yumura, Tokyo Institute of Technology, Japan, US 9,981,729 B2, 2018 | 87. Microstructure-based adhesion improvement, Michael R. Begley, Fongwen Ma, Timothy J. Turner, Edward W. Gelpi, University of California, Berkeley, United States, US 8,187,399 B2, 2012 | 88. Method for fabricating complex 3D micro- and nanoscale structures using soft lithography, Stephen A. Morin, George M. Whitesides, Ju-Hee So, Nathan C. Gianneschi, Harvard University, United States, US 8,557,832 B2,2013 | 89. Method and apparatus for sensing pressure using a composite piezoresistive material, Guruswamy Kumaraswamy, Vijay K. Varadan, University of Arkansas, United States, US 6,704,250 B2, 2004 | 90. Method for producing magnetic nanoparticles, Jiri Klemes, Jiri Tucek, Radek Zboril, Palacky University, Czech Republic, US 9,416,273 B2, 2016 | 91. Microfluidic devices for biological analysis, Abraham P. Lee, Chong H. Ahn, Michael J. Heller, Richard A. Mathies, University of California, Berkeley, United States, US 7,060,429 B2, 2006 | 92. System and method for noninvasive blood glucose monitoring, Gerald J. Sitkoff, Robert S. Markle, John A. Stiles, University of California, Los Angeles, United States, US 6,560,471 B1, 2003 | 93. Method of manufacturing a semiconductor device using selective deposition of an amorphous semiconductor layer, Takao Yonehara, Toshiyuki Sameshima, Kouhei Onitsuka, Masayoshi Tanaka,, Sharp Corporation, Japan, US 9,247,400 B2 | 94. related Patents in field of engineering research with Title, Name, university, Country, Patent number, Year, Yen-Huei Chen, Hong-Qiang Zhang, Jyh-Cheng Chen, Jui-Chi Hsieh, National Taiwan University, Taiwan, US 8,391,924 B2, 2013 | 95. Method for producing carbon nanotubes, Sumio Iijima, Kazuhiro Hata, Toshiaki Yamada, Yutaka Takeya, Seiji Motojima, Meijo University, NEC Corporation, Tokyo Institute of Technology, Japan, US 6,096,329, 2000 | 96. Multi-dimensional data compression and decompression system and method, Wei-Hua Peng, Shu-Ching Chen, Chao-Cheng Wu, Shang-Hong Lai, National Cheng Kung University, Taiwan, US 9,924,380 B2,2018 | 97. Inverted organic solar cell, Yang Yang, Gang Li, Chang E. Lee, Yue Wu, University of California, Los Angeles, United States, US 7,638,038 B2 | 98. Non-invasive optical blood glucose detection system and method, Eric R. Henderson, Susan P. Trinh, Brian R. Untereker, University of California, Irvine, United States, US 7,722,516 B2, 2010 | 99. Method and apparatus for carbon nanotube production, Richard E. Smalley, Victor A. Nikolaev, Phillip W. Collins, Rice University, United States, US 6,500,351,2002 | 100. System and method for real-time rendering of virtual objects with ambient occlusion, Peter-Pike Sloan, Jan Kautz, John Snyder, Massachusetts Institute of Technology, NVIDIA Corporation, United States, US 7,417,270 B2

 

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