About the Award

The International Research Awards on New Science Inventions could be a recognition program that aims to  recognize and celebrate  individualities or  brigades who have made significant  benefactions to the field of  wisdom and technology through innovative and  poignant  exploration. The awards could be offered in confluence with the International Conference on New Science Inventions and could be designed to fete  excellence in  colorful  orders,  similar as   Artificial Intelligence and Machine Learning  Biomedical Engineering  Renewable Energy and Sustainability  Nanotechnology and Accoutrements Science  Computer Science and Information Technology  Physics and Astronomy  Environmental Science and Climate Change  The International Conference on New Science Inventions could aim to   Foster  invention and creativity in the field of  wisdom and technology by feting  and celebrating the stylish and brightest experimenters and  brigades.   Promote the exchange of ideas and knowledge by bringing together experimenters, scientists, and other experts in these fields.   Encourage collaboration and  hookups between experimenters, universities, and assiduity  mates. give  openings for experimenters to gain recognition and visibility for their work.   Contribute to the advancement of  wisdom and technology by supporting innovative and  poignant  exploration. The International Conference on New Science Inventions could be open to  individualities or  brigades from around the world who have made significant  benefactions to the field of  wisdom and technology. The award donors could be  named by a panel of experts in the applicable fields and could admit recognition and prizes during New Science Inventions conference. The International Conference on New Science Inventions could  give a  precious  occasion for experimenters to showcase their work and to network with other experts in their fields.

What does the award include

The profile of the award winners of each category be listed on our website and it will be maintained forever.

The certificate, medal, and Memento, and photographs will be a testimony. Further, this recognition and additional proof of hard work and achievements must be globally accessible for Researchers and hence will be available online 24/7.

It’s an indicator of success Enhances the reputation improves the benchmark –it’s a matter of pride – Motivation – Raises the visibility of the success.

Researcher Awards

Young Scientist Award: This Awarded to researchers who are in the early stage of their career for outstanding research in their field. This award is bestowed in the motive of identifying and Recognizing the young Researchers around the world who have the potential to become leaders n their field. The qualification of the nominee must be recognized and documented by corresponding successes in research contributions, such as Collaborations and Publications. Eligibility: A working professional can nominate for the Award. Research grants for medical students also awarded as scientist awards. He must be below 35 years of age as of the conference date.

Best Researcher Award: This Awarded to the Best researcher in any field for their significant contribution to the advancement in their field of expertise. The qualification of the nominee must be recognized and documented by corresponding successes in research contributions, such as Collaborations, Contracts, and Publications. Eligibility: A working professional can nominate for the Award. There is no age limit for Best Researcher Award category.

Outstanding Scientist Award: Exceptional research record of significant contribution to the institute/company. The qualification of the nominee must be recognized and documented by corresponding successes in research contributions, such as Grants, Patents, Collaborations, Contracts, books, and Publications. Eligibility: A working professional can nominate for the Award. He must be above 35 years of age as of the conference date.

Lifetime Achievement Award: This awards an Exceptional research record of significant contribution to the institute/company. The qualification of the nominee must be recognized and documented by corresponding successes in research contributions, such as Grants, Patents, Collaborations, Contracts, books, and Publications. Eligibility: A working professional can nominate for the Award. He must be above 35 years of age as of the conference date.

Women Researcher Award: Awarded to the Best women researcher in any field for their significant contribution to the advancement in their field of expertise. The qualification of the nominee must be recognized and documented by corresponding successes in research contributions, such as Collaborations, Contracts, and Publications. Eligibility: A working professional can nominate for the Award.

Best Innovation Award: This Awarded to researchers/institutes/Organizations who are in the early stage of their careers for outstanding innovation in their field. This award is bestowed with the motive of identifying and Recognizing the Researchers/institutes/organizations around the world who have the potential to become leaders n their field. The qualification of the nominee must be recognized and documented by corresponding successes in research contributions, such as Collaborations and Publications. Eligibility: A working professional/ Institute/ Organization can nominate for the Award.

Best Faculty Award: This Awarded to the Best Faculty in any field for their significant contribution to the advancement in their field of expertise. The qualification of the nominee must be recognized and documented by corresponding successes in research/ Academic contributions, such as Collaborations, Contracts, and Publications. Eligibility: A working professional can nominate for the Award. He must be under 45 years of age as of the conference date.

Best Scholar Award: This Awarded to Scholar/ Student who are in the early stage of their career for outstanding research in their field. This award is bestowed in the motive of identifying and Recognizing the young Researchers scholar/ Student around the world who have the potential to become leaders n their field. The qualification of the nominee must be recognized and documented by corresponding successes in research contributions, such as Publications. Eligibility: A scholar can nominate for the Award. He must be under 35 years of age as of the conference date.

Institute/ Organization Awards:

Excellence in Innovation: This Awarded to Institute/ Organization/ Business/ Industries who are in the early stage of their career for outstanding innovation in their field. This award is bestowed in the motive of identifying and Recognizing the Institute/ Organization/ Business/ Industries around the world who have the potential to become leaders n their field. The qualification of the nominee must be recognized and documented by corresponding successes in innovation contribution, such as Innovation, Patent, Entrepreneurship, and New project development. Eligibility: A Institute /Organization/ Industries can nominate for the Award.

Excellence in Research: This Awarded to Institute/ Organization/ Business/ Industries who are in the early stage of their career for outstanding research in their field. This award is bestowed in the motive of identifying and Recognizing the Institute/ Organization/ Business/ Industries around the world who have the potential to become leaders n their field. The qualification of the nominee must be recognized and documented by corresponding successes in research contribution, such as publication, research Grants, Research & developments, Entrepreneurship development. Eligibility: A Institute /Organization/ Industries can nominate for the Award.

Excellence Award (Any Scientific field): This Awarded to Institute/ Organization/ Business/ Industries who are in the early stage of their career for outstanding excellence in their field. This award is bestowed in the motive of identifying and Recognizing the Institute/ Organization/ Business/ Industries around the world who have the potential to become leaders n their field. The qualification of the nominee must be recognized and documented by corresponding successes in their field contribution, such as Advancement, New Technology, and Development. Eligibility: A Institute /Organization/ Industries can nominate for the Award.

Best Research /Innovation Extension activity: This Awarded to Institute/ Organization/ Business/ Industries who are in the early stage of their career for outstanding Research/ innovation in their field. This award is bestowed in the motive of identifying and Recognizing the Institute/ Organization/ Business/ Industries around the world who have the potential to become leaders n their field. The qualification of the nominee must be recognized and documented by corresponding successes in their field contribution, such as Extension, Public useful innovation /Research Activities, Innovative services, Awareness programs, and New Technology awareness Development. Eligibility: A Institute /Organization/ Industries can nominate for the Award.

How to Apply

The Candidates with eligibility can click the "Nominate /Submit Your Profile (CV) Now" button and fill up the online submission form and Submit it.

This section describes the total Research Awards processes in step by steps:

1. Received Nomination documents will be sent for the screening process
2. Acknowledgment intimation via email will be communicated to the Nominee
3. The team may ask the proof for the credits mentioned in the Resume.
4. Cross verifying the documents submitted & forwarding it to the Committee.
5. The selected candidate indicated through email. Also, the selected nominees will be checked anytime on the website track of my submission.
6. Event and Celebration Registration
7. Release of the winners list in the official web page
8. Award presentation ceremony
9. Release of the Award winners and his profile Report.

Registration Details

Registration Covers

• An exclusive web page for a highly rated profile of the award winners will always be available online.
• Participation in Award event Session and Keynote session.
• Certificate, Memento, and Photographs.
• Event Kit, Tea, Coffee & Snacks.
• Veg & Non-Veg Lunch during the Event.
• Event and Celebration Registration
• Release of the winners list in the official web page
• Award presentation ceremony
• Release of the Award winners and his profile Report.

Registration Procedure

Click the “Register Now” 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

Committee Members

General Instructions to Nominees

1. The candidates with proper eligibility are requested to submit the online nomination form in order to get nominated for the award
2. If your nomination is accepted by our Judges, we will send you an email regarding your profile selection
3. Awardees must register for the event
4. Dress Code: Award Recipients 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.
5. General Information: Each winner's name will be called & asked to collect their Awards on the Stage with an official photographer to capture the moments.

 

Terms & Conditions

ScienceFather Terms & Conditions Policy was last updated on June 25, 2022.

Privacy Policy

This awards  Customer personal information for our legitimate business purposes, to 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

Sciencefather awards 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 to build subscriber profiles.

Disclaimer

 All editorial matters published on this website represent the opinions of the authors 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

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

Registration fees that do not include insurance of any kind.

Press and Media

Press permission must be getting from the ScienceFather 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

Please note that any (or) all traffic and parking is the responsibility of the registrant.

Requesting an Invitation Letter

For security purposes, the letter of invitation will be sent only to those individuals who had registered for the conference. Once your registration is complete, please contact contact@ScienceFather.com to request a personalized letter of invitation.

Cancellation Policy

If cancel this event for any reason, you will receive a credit for 100% of the registration fee paid. You may use this credit for another Primary healthcare award which must occur within one year from the date of cancellation.

Postponement Policy

If postpone an event for any reason and you are unable or indisposed to attend on rescheduled dates, you will receive a credit for 100% of the registration fee paid. You may use this credit for another ScienceFather event which must occur within one year from the date of postponement.

Transfer of registration

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 contact@sciencefather.com. 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 from one conference to another conference of ScienceFather if the person is unable to 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

Keeping given the increased security measures, we would like to request all the participants to apply for Visa as soon as possible. NESIN awards 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 of NESIN awards, including the inability to obtain a visa.

Refund Policy

Regarding refunds, all bank charges will be for the registrant's account. All cancellations or modifications of registration must make in writing to contact@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.

Accommodation Cancellation Policy

 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. ScienceFather will advise the cancellation policy of your accommodation provider, before withdrawing or changing your booking, to ensure you are fully aware of any non-refundable deposits.

Sponsorship

Sciencefather warmly invites you to sponsor or exhibit at 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.

Sponsorship Details

Diamond Sponsorship

1. Acknowledgment during the opening of the conference
2. Complimentary Booth of size 10 meters square
3. Four (4) delegate’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 (1×1 meters) for the conference
7. One full cover page size ad in conference proceedings
8. Opportunities for Short speech at events
9. Opportunity 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) delegate’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. Opportunities for Short speech at events
7. One full-page size ad in conference proceedings
8. One exhibition stand (1×1 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) delegate’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. ½ page size ad in conference proceedings

Silver Sponsorship

1. Acknowledgment during the opening of the conference
2. One(1) delegate’s complimentary registrations with lunch
3. Include marketing document in the delegate pack
4. Logo on Conference website, Banners, Backdrop, and conference proceedings
5. ¼ 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) delegate’s complimentary registrations with lunch

 

Sponsorship 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

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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|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

1. Association for Computing Machinery – USA | 2. Institute of Electrical and Electronics Engineers – USA | 3. Society for Industrial and Applied Mathematics – USA | 4. Association for Information Systems – USA | 5. The Optical Society – USA | 6. American Institute of Aeronautics and Astronautics – USA | 7. American Physical Society – USA | 8. American Society of Civil Engineers – USA | 9. American Society of Mechanical Engineers – USA | 10. American Statistical Association – USA | 11. Society of Automotive Engineers – USA | 12. Association for the Advancement of Artificial Intelligence – USA | 13. Institute of Physics – UK | 14. Institution of Engineering and Technology – UK | 15. Royal Society of Chemistry – UK | 16. British Computer Society – UK | 17. Chartered Institute for IT – UK | 18. Institution of Mechanical Engineers – UK | 19. Institute of Electrical Engineers of Japan – Japan | 20. Information Processing Society of Japan – Japan | 21. 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Canadian Society for Civil Engineering – Canada | 38. Canadian Mathematical Society – Canada | 39. Canadian Nuclear Society - Canada | 40. Canadian Association of Physicists – Canada | 41. Canadian Information Processing Society – Canada | 42. Canadian Artificial Intelligence Association – Canada | 43. The Institute of Electrical and Electronics Engineers of Canada – Canada | 44. The Canadian Society for Digital Humanities – Canada | 45. German Physical Society – Germany | 46. German Informatics Society – Germany | 47. German Society for Applied Mathematics and Mechanics – Germany | 48. Association for Computing Machinery of Germany – Germany | 49. Institute of Electrical and Electronics Engineers of Germany – Germany | 50. German Association for Pattern Recognition – Germany | 51. Gesellschaft für Informatik – Germany | 52. Austrian Society for Artificial Intelligence – Austria | 53. Austrian Society for Electron Microscopy and Analysis – Austria | 54. 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Swedish Society for Industrial and Applied Mathematics – Sweden | 73. American Association for the Advancement of Science – USA | 74. Royal Society of London – UK | 75. National Academy of Sciences – USA | 76. Max Planck Society – Germany | 77. Chinese Academy of Sciences – China | 78. Russian Academy of Sciences – Russia | 79. Indian National Science Academy – India | 80. Academy of Sciences of the Czech Republic - Czech Republic | 81. Academy of Sciences of the Republic of Uzbekistan – Uzbekistan | 82. Australian Academy of Science – Australia | 83. Brazilian Academy of Sciences – Brazil | 84. Bulgarian Academy of Sciences – Bulgaria | 85. Croatian Academy of Sciences and Arts – Croatia | 86. Cuban Academy of Sciences – Cuba | 87. Egyptian Academy of Scientific Research and Technology – Egypt | 88. Estonian Academy of Sciences – Estonia | 89. French Academy of Sciences – France | 90. German Academy of Sciences Leopoldina – Germany | 91. Ghana Academy of Arts and Sciences – Ghana | 92. Hungarian Academy of Sciences – Hungary | 93. Indonesian Academy of Sciences – Indonesia | 94. Iranian Academy of Sciences – Iran | 95. Iraqi Academy of Sciences – Iraq | 96. Irish Academy of Sciences – Ireland | 97. Israel Academy of Sciences and Humanities – Israel | 98. Italian National Academy of Sciences – Italy | 99. Japan Academy – Japan | 100. Jordan Academy of Sciences - Jordan | href='https://new-science-inventions.sciencefather.com/wp-admin/post.php?post=3174&action=edit'>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, | 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

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. 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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

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 Schrödinger: physicist and Nobel laureate known for his work on wave mechanics and the Schrödinger 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. | 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.| 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.

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1. CRISPR-Cas Systems and Methods for Altering Expression of Gene Products , Jennifer Doudna and Emmanuelle Charpentier, University of California, Berkeley and Umea University, USA and Sweden, US20200291224A1, 2020 | 2. A Novel Class of Protein Kinase Inhibitors, Tony Hunter, Salk Institute for Biological Studies, USA, US20160371899A1, 2016 | 3. Carbon Nanotube-Based Thermal Interface Materials and Devices ,Liangbing Hu and Teng Li, University of Maryland , USA, US20180325894A1, 2018 | 4. High-performance Flexible Hybrid Electronics , John Rogers , Northwestern University , USA, US10729511B2, 2020 | 5. Photovoltaic Devices Including a Fullerene Derivative , Alan Heeger , University of California, Santa Barbara, USA, US10335467B2, 2019 | 6. Microbial Production of Renewable Hydrogen Gas , James Liao, University of California, Los Angeles, USA, US9593314B2, 2017 | 7. 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Craik, The University of Queensland, Australia, US10596858B2, 2020 | 14. Wireless Sensing of Bioanalytes Using Flexible and Stretchable Carbon Nanotube Transistors, Ali Javey, University of California, Berkeley, USA, US9512378B2,2016 | 15. Integrated Quantum Photonic Circuits and Methods of Making the Same, Mark Thompson, University of Bristol, UK, US10278210B2, 2019 | 16. Novel Cyclic Peptide Inhibitors of Influenza Virus Entry, Peter S. Kim, Stanford University, USA, US10369146B2, 2019 | 17. System and Method for Non-Invasive Continuous Glucose Monitoring Based on Infrared Spectroscopy, Wei-Chuan Shih, University of Houston, USA, US10375672B2, 2019 | 18. Methods for Isolating and Using Antibodies that Bind to the C-Terminal Tail of Histone Proteins, David Allis, Rockefeller University, USA, US10235836B2, 2019 | 19. Methods of Inhibiting Myeloid-Derived Suppressor Cells for Cancer Immunotherapy, Dmitry Gabrilovich, Wistar Institute, USA, US10249481B2, 2019 | 20. Smart System and Method for Monitoring and Controlling the Health of Plants, Zhaohui Tong, Michigan State University, USA, US10832273B2, 2020 | 21. Compositions and Methods for Immunotherapy Based on Regulating Tumor Microenvironment, Yang-Xin Fu, University of Texas Southwestern Medical Center, USA, US10396162B2,2019 | 22. System and Method for Translational Profiling of Proteins in Single Cells, Xiaowei Zhuang, Harvard University, USA, US10294281B2, 2019 | 23. Methods and Compositions for Modulating Tissue Fibrosis, Gary G. Meadows, Washington State University, USA, US10461522B2,2019 | 24. Methods for Inducing Chondrogenesis Using Growth Factor Fusion Proteins, Rocky S. Tuan, University of Pittsburgh, USA, US10742448B2,2020 | 25. Methods and Devices for Non-Invasive Determination of Blood Glucose and Other Analytes, Mark Prausnitz, Georgia Institute of Technology, USA, US10208381B2,2019 | 26. Method and System for Providing Improved Network Security, Michael W. Hicks, Stephen T. 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. Patrick McEnaney, Gas Technology Institute, United States, US 7,960,171 B2, 2011 | 58. A novel nanocomposite material and method of preparation thereof, Ajayan Pulickel M., Kumar Ashavani, Gowda Sridhar, and Srivastava Anchal, Rice University, United States, US 8,389,074 B2, 2013 | 59. Autonomous underwater vehicle with docking station, Oskar Levander, Jonas Fredriksson, KTH Royal Institute of Technology, Sweden, US 8,800,951 B2, 2014 | 60. Biomimetic hydrophobic surfaces, Joanna Aizenberg, Mathias Kolle, Harvard University, United States, US 9,187,696 B2, 2015 | 61. Ultrafast 3D printing with nanoscale precision, Nicholas X. Fang, Xiaofeng Liu, Seokwoo Jeon, Wei Wang, Massachusetts Institute of Technology, United States, US 9,978,192 B2, 2018 | 62. Method for processing waste plastic and producing diesel oil and gasoline, Shouguo WangShandong University of Technology, China, US 9,428,578 B2, 2016 | 63. Surface acoustic wave device and method for manufacturing the same, Toshifumi Imamura, Yuko Hiraiwa, Koichi Mukasa, Yoshitaka Fujimoto, Tohoku University, Japan, US 9,865,780 B2, 2018 | 64. Method for producing graphene oxide film and electronic device using graphene oxide film, Jong-Hyun Ahn, Jin-Woo Jeon, Sang-Hoon Lee, Yonsei University, South Korea, US 9,943,697 B2, 2018 | 65. Method for producing carbon nanotubes using floating catalyst method, Joon-Shik Park, Jung-Yeul Yun, Dong-Won Kim, Korea Institute of Science and Technology, South Korea, US 8,906,539 B2, 2014 | 66. Liquid repellent surfaces and methods of making same, Anish Tuteja, Kevin Golovin, Alexander C. Veenstra, Adam Paxson, Joseph Mabry, University of Michigan, United States, US 9,512,547 B2, 2016 | 67. Method for producing titanium oxide nanoparticles, Masakazu Anpo, Masaaki Kitano, Shunsuke Takahashi, Yasutaka Kuwahara, Osaka Prefecture University, Japan, US 8,585,905 B2, 2013 | 68. Adaptive signal processing, James W. Beauchamp, Alan V. Oppenheim, Ronald W. Schafer, Thomas F. Quatieri, L. Duttweiler, Massachusetts Institute of Technology, United States, US 6,034,086, 2000 | 69. Method for manufacturing fiber-reinforced composite material, Hiromichi Saito, Hiroyasu Funato, Shinshu University, Japan, US 8,748,639 B2, 2014 | 70. Optical MEMS device and manufacturing method thereof, Hongrui Jiang, Zhichuan J. Xu, Jingkuang Chen, Xiaoyu Miao, University of Wisconsin-Madison, United States, US 9,251,147 B2, 2016 | 71. Gas turbine engine with improved efficiency and reduced emissions, David H. Van Wie, Samuel Paolucci, Jesse Little, Pennsylvania State University, United States, US 8,601,783 B2, 2013 | 72. Method for producing metal nanoparticles, metal nanoparticles produced by the method, and uses thereof, Sung Wook Kim, Seung-Mo Lee, Kyung-Hyun Kim, Yong-Seok Kim, Korea Advanced Institute of Science and Technology, South Korea, US 8,236,602 B2, 2012 | 73. 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. Braun, Massachusetts Institute of Technology, United States, US 7,867,958 B2, 2011 | 78. Nanoporous materials and methods for producing same, Michael F. Rubner, Robert E. Cohen, Sujatha Srinivasan, Shaoqin Gong, Massachusetts Institute of Technology, United States, US 9,586,225 B2, 2017 | 79. Method and apparatus for reducing mechanical energy losses in oscillating systems, Alexander M. Stankiewicz, Russell H. Plagens, Steven E. Schumacher, Purdue University, United States, US 8,146,732 B2, 2012 | 80. Method of producing biofuel using genetically engineered microorganisms, James Liao, Taek Soon Lee, Oliver M. Mueller, Michael J. Guarnieri, University of California, Los Angeles, United States, US 9,212,412 B2, 2015 | 81. Microfabricated devices for heat transfer, Thomas W. Kenny, Roger T. Howe, K. Eric Goodson, Stanford University, United States, US 8,252,637 B2, 2012 | 82. 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