Nicolaj Bischoff | Materials Science | Best Researcher Award

Posted on by ScienceFather

Mr. Nicolaj Bischoff | Materials Science | Best Researcher Award

PhD at Maastricht University, New Caledonia

Nicolaj S. Bischoff is a highly accomplished researcher in toxicology and molecular biology, with over five years of experience in regulatory toxicology, nanotoxicology, and in vitro testing. He has authored multiple peer-reviewed publications, systematic reviews, and meta-analyses while demonstrating expertise in risk assessment, advanced experimental models, and biomarker evaluation. His leadership in managing six research projects and mentoring students highlights his strong collaborative and organizational skills. Nicolaj’s work integrates innovative approaches such as bulk RNA sequencing and toxicogenomics, contributing significantly to scientific advancements. While he possesses exceptional technical and analytical abilities, securing additional research grants, expanding interdisciplinary collaborations, and taking on international leadership roles could further strengthen his profile. Given his expertise, research impact, and commitment to advancing toxicological science, he is a strong candidate for the Best Researcher Award. Strengthening his global recognition and expanding his interdisciplinary contributions would further enhance his competitiveness for prestigious honors.

Professional Profile 

Education🎓

Nicolaj S. Bischoff has a strong academic background in toxicology and molecular biology. He is currently pursuing a Ph.D. in Life Sciences (Translational Genomics) at Maastricht University, Netherlands (2020–2024), where he focuses on toxicological risk assessment using advanced in vitro models. He holds an M.Sc. in Toxicology from the University of Potsdam, Germany (2018–2020), where he conducted research on environmental mutagenesis and chemical safety assessment. His undergraduate studies include a B.Sc. in Molecular and Technical Medicine from Hochschule Furtwangen University, Germany (2013–2016), where he gained foundational expertise in biomedical research and laboratory techniques. Additionally, he has completed specialized certifications, including the ToxLearn4EU Summer School (2023), eBROK certification for clinical investigators, and FELASA (Category B) certification for laboratory animal science, further enhancing his expertise in toxicology and risk assessment. His educational journey reflects a strong commitment to advancing scientific research in toxicology, molecular biology, and regulatory science.

Professional Experience 📝

Nicolaj S. Bischoff has extensive research experience in toxicology and molecular biology. As a Ph.D. Candidate at Maastricht University’s Translational Genomics Department (2020–2024), he has conducted toxicological risk assessments of food additives, utilizing advanced in vitro models like human colon organoids and dynamic gastrointestinal systems. He has led six research projects, authored multiple peer-reviewed publications, and collaborated with cross-functional teams to advance toxicogenomics and biomarker evaluation. Previously, he worked as a Master Thesis Researcher at the National Institute for Health Dr. Ricardo Jorge, Portugal (2019), assessing the toxicological safety of bioactive compounds. Additionally, as a Visiting Research Scientist at the Federal Institute for Risk Assessment, Germany (2019), he contributed to CLP classification research under REACH regulations. His expertise spans risk assessment, cytotoxicity testing, RNA sequencing, and systematic literature reviews. Nicolaj’s research impact and leadership make him a key contributor to toxicology and regulatory science.

Research Interest🔎

Nicolaj S. Bischoff’s research interests lie at the intersection of toxicology, molecular biology, and regulatory science, with a strong focus on risk assessment, nanotoxicology, and in vitro testing. His work explores hazard identification, biomarker evaluation, and toxicogenomics, particularly in assessing the safety of food additives and environmental chemicals. He is deeply engaged in advanced experimental models, including human colon organoids and dynamic gastrointestinal systems, to study the impact of toxicants on human health. His expertise in bulk RNA sequencing and toxicogenomic analysis allows for a deeper understanding of gene expression changes and biological responses to chemical exposures. Additionally, he is interested in systematic literature reviews, meta-analyses, and the development of New Approach Methodologies (NAMs) to improve toxicological risk assessment. Nicolaj is committed to advancing innovative research methods that contribute to international regulatory toxicology, public health, and environmental safety, shaping future policies in chemical risk management.

Award and Honor🏆

Nicolaj S. Bischoff has been recognized for his contributions to toxicology, molecular biology, and regulatory science through various academic and professional achievements. His research excellence is reflected in multiple peer-reviewed publications, systematic reviews, and meta-analyses, demonstrating his expertise in risk assessment and toxicogenomics. He has actively participated in prestigious international conferences and congresses, where he has presented his findings on nanotoxicology, biomarker evaluation, and advanced in vitro models. His selection for the ToxLearn4EU Summer School (2023) highlights his commitment to professional development in toxicology and regulatory risk assessment. Additionally, he has earned certifications such as eBROK (basic clinical investigator course) and FELASA (Category B) certification, further strengthening his credentials in laboratory animal science and research ethics. Nicolaj’s leadership in research projects, mentorship of students, and contributions to international collaborations position him as a strong candidate for prestigious awards in toxicology and molecular sciences.

Research Skill🔬

Nicolaj S. Bischoff possesses a diverse set of research skills spanning toxicology, molecular biology, and regulatory science. He is highly proficient in toxicological risk assessment, cytotoxicity, and genotoxicity testing, utilizing advanced in vitro models, such as human colon organoids and dynamic gastrointestinal systems. His expertise in bulk RNA sequencing and toxicogenomic analysis enables him to assess gene expression changes and biomarker evaluations for toxicant exposure. He is adept at systematic literature reviews, meta-analyses, and PRISMA-guided data synthesis, ensuring robust research methodologies. Nicolaj also has strong skills in assay development, experimental design, and statistical data analysis using tools like R and GraphPad Prism. Additionally, he excels in scientific writing, publishing, and stakeholder communication, with multiple peer-reviewed publications and congress presentations. His ability to integrate innovative methodologies with regulatory frameworks makes him a leading researcher in toxicology and molecular sciences, advancing public health and environmental safety.

Conclusion💡

Nicolaj S. Bischoff is a strong candidate for the Best Researcher Award due to his outstanding research contributions in toxicology and molecular biology, high-impact publications, technical expertise, and leadership in academic collaborations. His ability to conduct advanced risk assessments, develop innovative in vitro models, and contribute to regulatory science aligns well with the award criteria.

Publications Top Noted✍️

  • Title: Investigating the ROS Formation and Particle Behavior of Food-Grade Titanium Dioxide (E171) in the TIM-1 Dynamic Gastrointestinal Digestion Model
    Authors: Nicolaj S. Bischoff, Anna K. Undas, Greet van Bemmel, Jacco J. Briedé, Simone G. van Breda, Jessica Verhoeven, Sanne Verbruggen, Koen Venema, Dick T. H. M. Sijm, Theo M. de Kok
    Year: 2024
    Citation: Nanomaterials, DOI: 10.3390/nano15010008

  • Title: Correction: Bischoff et al. The Effects of the Food Additive Titanium Dioxide (E171) on Tumor Formation and Gene Expression in the Colon of a Transgenic Mouse Model for Colorectal Cancer
    Authors: Nicolaj Bischoff, Héloïse Proquin, Marlon Jetten, Yannick Schrooders, Marloes Jonkhout, Jacco Briedé, Simone van Breda, Danyel Jennen, Estefany Medina-Reyes, Norma Delgado-Buenrostro et al.
    Year: 2023
    Citation: Nanomaterials, DOI: 10.3390/nano13212888

  • Title: Reply to Kaminski, N.E.; Cohen, S.M. Comment on “Bischoff et al. The Effects of the Food Additive Titanium Dioxide (E171) on Tumor Formation and Gene Expression in the Colon of a Transgenic Mouse Model for Colorectal Cancer”
    Authors: Nicolaj S. Bischoff, Héloïse Proquin, Marlon J. Jetten, Yannick Schrooders, Marloes C. M. Jonkhout, Jacco J. Briedé, Simone G. van Breda, Danyel G. J. Jennen, Estefany I. Medina-Reyes, Norma L. Delgado-Buenrostro et al.
    Year: 2023
    Citation: Nanomaterials, DOI: 10.3390/nano13091552

  • Title: The Effects of the Food Additive Titanium Dioxide (E171) on Tumor Formation and Gene Expression in the Colon of a Transgenic Mouse Model for Colorectal Cancer
    Authors: Nicolaj Sebastian Bischoff, Héloïse Proquin, Marlon J. Jetten, Yannick Schrooders, Marloes C. M. Jonkhout, Jacco Jan Briedé, Simone van Breda, Danyel Jennen, Estefany I. Medina-Reyes, Norma L. Delgado-Buenrostro et al.
    Year: 2022
    Citation: Nanomaterials, DOI: 10.3390/nano12081256

  • Title: Possible Adverse Effects of Food Additive E171 (Titanium Dioxide) Related to Particle-Specific Human Toxicity, Including the Immune System
    Authors: Nicolaj Sebastian Bischoff, Theo M. de Kok, Dick T.H.M. Sijm, Simone van Breda, Jacco Jan Briedé, Jacqueline J.M. Castenmiller, Antoon Opperhuizen, Yolanda I Chirino, Hubert Dirven, David Gott et al.
    Year: 2020
    Citation: International Journal of Molecular Sciences, DOI: 10.3390/ijms22010207

Benjun Cheng | Materials Science | Best Researcher Award

Posted on by ScienceFather

Prof. Benjun Cheng | Materials Science | Best Researcher Award

Prof. at Central South University, China

Professor Benjun Cheng is a highly accomplished researcher specializing in nanomaterials, high-temperature ceramics, energy-saving materials, and numerical simulation. With over 60 research papers and 10+ national invention patents, he has significantly contributed to academia and industry. As a doctoral supervisor and reviewer for prestigious journals, he plays a vital role in shaping research in materials science. His leadership in national projects, including the National Key R&D Program and National Natural Science Foundation projects, highlights his expertise. International exposure as a visiting scholar at the University of Exeter further strengthens his profile. While he has made outstanding contributions, expanding global collaborations, publishing in high-impact journals, and leading large-scale interdisciplinary projects would enhance his global recognition. Overall, his research excellence, innovation, and leadership make him a highly suitable candidate for the Best Researcher Award, with minor improvements needed to elevate his international influence further.

Professional Profile 

Education

Professor Benjun Cheng holds a Ph.D. in Materials Science and Engineering from Zhejiang University (2002-2006), where he developed expertise in nanomaterials, high-temperature ceramics, and energy-saving materials. His academic journey has been marked by a strong foundation in both theoretical and applied research, enabling him to contribute significantly to materials science and energy applications. Since 2007, he has been a faculty member at the School of Energy Science and Engineering at Central South University, where he progressed from lecturer to a doctoral supervisor. In 2014, he was awarded a prestigious National Scholarship Fund to serve as a visiting scholar at the University of Exeter, UK, further enhancing his international research exposure. His extensive education and continuous academic growth have equipped him with the skills and knowledge to lead high-impact research projects and mentor future researchers in the field of materials science and engineering.

Professional Experience

Professor Benjun Cheng has extensive professional experience in materials science and engineering, specializing in nanomaterials, high-temperature ceramics, energy-saving materials, and numerical simulation. Since 2007, he has been a faculty member at the School of Energy Science and Engineering, Central South University, where he has advanced from lecturer to doctoral supervisor. His research contributions include leading and participating in major national projects, such as the National Key R&D Program and National Natural Science Foundation projects. He has authored over 60 research papers and holds more than 10 national invention patents, demonstrating his impact in academia and industry. As a reviewer for prestigious journals and a technical consultant for manufacturing enterprises, he plays a crucial role in advancing research and industrial applications. In 2014, he enhanced his global academic profile as a visiting scholar at the University of Exeter, UK. His expertise and leadership make him a distinguished researcher in his field.

Research Interest

Professor Benjun Cheng’s research interests focus on advanced materials science, particularly in nanomaterials, high-temperature ceramics, energy-saving and energy storage materials, and numerical simulation of materials and equipment. His work explores the application of new energy in high-temperature furnaces, emphasizing its impact on the sintering of refractory materials and ceramics. He is also deeply involved in developing innovative energy-efficient solutions for industrial applications, contributing to sustainable advancements in material processing. His research extends to the practical implementation of novel materials in manufacturing, optimizing performance through computational modeling and experimental validation. By integrating theoretical analysis with industrial applications, he aims to enhance the efficiency and durability of materials used in extreme environments. His expertise in these areas has led to significant contributions in both academic research and industry, reinforcing his role as a leader in materials science and engineering.

Award and Honor

Professor Benjun Cheng has received numerous awards and honors in recognition of his outstanding contributions to materials science and engineering. His research excellence in nanomaterials, high-temperature ceramics, and energy-saving materials has been acknowledged through prestigious national grants and funding, including participation in the National Key R&D Program and the National Natural Science Foundation projects. In 2014, he was awarded a National Scholarship Fund to serve as a visiting scholar at the University of Exeter, UK, highlighting his international academic impact. His innovative contributions, including over 10 national invention patents, have earned recognition from both academia and industry. Additionally, his role as a reviewer for leading scientific journals and as a technical consultant for manufacturing enterprises further reflects his influence in the field. His dedication to scientific research and technological innovation has positioned him as a highly respected figure in materials science, making him a deserving candidate for prestigious awards.

Research Skill

Professor Benjun Cheng possesses advanced research skills in materials science, specializing in nanomaterials, high-temperature ceramics, energy-saving materials, and numerical simulation. His expertise includes experimental design, materials characterization, and computational modeling to optimize material properties for industrial applications. With a strong analytical mindset, he integrates theoretical research with practical implementation, ensuring the development of high-performance materials for extreme environments. His ability to lead and manage national research projects, including those funded by the National Key R&D Program and the National Natural Science Foundation, demonstrates his project management and problem-solving skills. Additionally, his extensive publication record, with over 60 research papers and 10+ national invention patents, highlights his proficiency in scientific writing, data analysis, and innovation. As a reviewer for prestigious journals and a technical consultant for manufacturing enterprises, he continuously applies his research skills to advance both academic knowledge and industrial development.

Conclusion

Professor Benjun Cheng is a strong candidate for the Best Researcher Award, given his exceptional contributions to materials science, energy applications, and high-temperature ceramics. His strong publication record, patents, leadership in national projects, and academic influence make him a standout researcher. Strengthening global collaborations, publishing in high-impact journals, and leading larger-scale research initiatives would further solidify his candidacy for prestigious awards in the future.

Publications Top Noted

  • Title: Thermal, Flow and Inclusions Analysis of Clogging Mechanism in Continuous Casting Process

    • Authors: Xiaocheng Liang, Lin Wang, Zhongfei Liu, Qichen Yuan, Benjun Cheng

    • Year: 2025

    • Citations: 0

  • Title: Numerical Simulation of the Heating Process in a Vacuum Sintering Electric Furnace and Structural Optimization

    • Authors: Mao Li, Jishun Huang, Ting Hu, Benjun Cheng, Hesong Li

    • Year: 2024

Amun Amri | Nanomaterials | Scientific Advancement Achievement Award

Posted on by ScienceFather

🌟Prof. Amun Amri, Nanomaterials, Scientific Advancement Achievement Award🏆

  •  Professor at University of Riau, Indonesia 

Prof. Amun Amri is a highly accomplished lecturer and researcher in the Department of Chemical Engineering at the University of Riau, Indonesia. With a diverse educational background in Nuclear Engineering, Chemical Engineering, and Material Engineering, he possesses extensive expertise in nanomaterials, particularly in graphene synthesis and applications, nano-cellulose, lithium-ion battery development, ceramics, and metal oxides nanocomposites. Prof. Amri has held various academic positions, including teaching assistantships and professorships, and has supervised doctoral students both domestically and internationally.

Author Metrics

Google Scholar Profile

Prof. Amun Amri has a strong research profile, as evidenced by his publications and citations. With 69 Scopus indexed journal articles, approximately 57% of which are in Q1 Scopus journals, he demonstrates a consistent publication record in reputable venues. His Scopus H-index of 17 indicates the impact and influence of his research contributions within the scientific community. Additionally, he maintains profiles on platforms such as Scopus, ORCID, and SINTA to showcase his research output and collaborations.

  • Citations:
    • All Time: 1558
    • Since 2019: 1029
  • h-index:
    • All Time: 20
    • Since 2019: 17
  • i10-index:
    • All Time: 33
    • Since 2019: Not provided

These metrics indicate the impact and influence of Amun Amri’s research output over time. While the total number of citations and the h-index have increased since 2019, the i10-index, which represents the number of publications with at least 10 citations, is not provided for the specified time frame. Overall, these metrics reflect continued contributions to the field of Chemical and Nanomaterials Engineering, with a notable increase in citations and h-index in recent years.

Education

Prof. Amri holds a Bachelor’s degree in Nuclear Engineering from Universitas Gadjah Mada, Indonesia, a Master’s degree in Chemical Engineering from the same institution, and a Doctoral degree in Chemical and Material Engineering from Murdoch University, Australia. His educational journey has provided him with a strong foundation in engineering principles and research methodologies, enabling him to pursue advanced research in nanomaterials and chemical engineering.

Research Focus

Prof. Amun Amri’s research interests primarily revolve around Chemical and Nanomaterials Engineering. He specializes in the synthesis and applications of graphene, nano-cellulose, lithium-ion battery development with graphene additives, ceramics, and metal oxides nanocomposites. His work encompasses a wide range of applications, from energy storage solutions to environmental remediation and advanced materials development.

Professional Journey

Prof. Amri’s professional journey spans over two decades, during which he has held various academic positions and contributed significantly to research and education in chemical engineering. From his early career as a lecturer at the University of Riau to his tenure as a teaching assistant at Murdoch University, Australia, he has gained valuable experience in both academia and industry. His progression from lecturer to associate professor to professor reflects his dedication and expertise in his field.

Honors & Awards

 Prof. Amun Amri’s extensive research grants, publications in reputable journals, and leadership roles in research projects indicate recognition for his contributions to the field of chemical engineering and nanomaterials. His involvement in prestigious research initiatives funded by organizations such as BRIN – LPDP and DIKTI underscores his standing as a respected researcher in Indonesia.

Publications Noted & Contributions

Prof. Amri’s publication record includes 69 Scopus indexed journal articles, with a significant portion published in Q1 Scopus journals. These publications cover various aspects of his research interests, including graphene synthesis, lithium-ion battery development, nanocomposites, and materials engineering. His contributions to the scientific literature have advanced knowledge in the field of nanomaterials and garnered citations, as reflected in his Scopus H-index of 17.

  1. “Thermal characterization of binary Calcium-Lithium chloride salts for thermal energy storage at high temperature”
    • Authors: N. Hassan, M. Minakshi, W.Y.H. Liew, A. Amri, Z.T. Jiang
    • Published in: Energies, Volume 16, Issue 12, Page 4715, 2023
    • Summary: This study focuses on the thermal characterization of binary Calcium-Lithium chloride salts for thermal energy storage at high temperatures. It explores the potential of these salts for energy storage applications, providing valuable insights into their thermal behavior and suitability for use in high-temperature environments.
  2. “Comparison of synthesis methods on TiO2-graphene composites for photodegradation of compound waste”
    • Authors: D. Heltina, D.I. Mastura, A. Amri, M.P. Sembiring
    • Published in: Materials Today: Proceedings, Volume 87, Pages 293-298, 2023
    • Summary: This research compares different synthesis methods for TiO2-graphene composites aimed at enhancing the photodegradation of compound waste. By evaluating various synthesis approaches, the study seeks to optimize the composition and properties of the composites to improve their efficiency in waste treatment applications.
  3. “Synthesis of hydroxyapatite powder using natural latex particles as pore-creating agent”
    • Authors: S.R. Yenti, A. Fadli, A. Amri, D. Novandri, F. Setiawan, J. Hasibuan
    • Published in: Materials Today: Proceedings, Volume 87, Pages 278-283, 2023
    • Summary: This paper presents a method for synthesizing hydroxyapatite powder using natural latex particles as a pore-creating agent. The research aims to develop a cost-effective and environmentally friendly approach for producing hydroxyapatite, a material widely used in biomedical and dental applications.
  4. “The Pembuatan Pupuk Organik Padat dari Limbah Pertanian dan Peternakan di Desa Batu Belah Kabuputen Kampar”
    • Authors: S. Sunarno, S.R. Yenti, A. Fadli, W. Wisrayetti, A. Amri, Z. Zultiniar, C.D. Alfarizi
    • Published in: Journal of Community Engagement Research for Sustainability, Volume 3, Issue 1, Pages 63-69, 2023
    • Summary: This publication discusses the production of solid organic fertilizers from agricultural and livestock waste in the Batu Belah Village, Kampar District. It highlights the importance of community engagement and sustainable waste management practices in rural agricultural settings.
  5. “Manufacturing of high brightness dissolving pulp from sansevieria-trifasciata fiber by effective sequences processes”
    • Authors: A. Aman, S. Rahmadahana, A. Amri
    • Published in: Communications in Science and Technology, Volume 7, Issue 1, Pages 45-49
    • Summary: This research focuses on the manufacturing process of high brightness dissolving pulp from Sansevieria-trifasciata fiber. It explores effective sequence processes to produce high-quality dissolving pulp, which is essential for various industrial applications, including textile and paper production.

Research Timeline

Prof. Amun Amri’s research trajectory has been marked by consistent productivity and growth. Beginning with his early research on surface modification and materials characterization during his doctoral studies, he has continued to explore diverse areas within chemical and nanomaterials engineering. From his involvement in research grants to his leadership in collaborative projects, he has demonstrated a commitment to advancing scientific knowledge and addressing real-world challenges through innovative research.

Collaborations and Projects

Prof. Amri has been actively involved in collaborative research projects both nationally and internationally. His participation as a leader or member in research initiatives funded by organizations such as RIIM, BRIN – LPDP, DIKTI, and others highlights his engagement with multidisciplinary teams and his ability to leverage resources for impactful research outcomes. These collaborations have enabled him to expand his research horizons, exchange expertise with peers, and contribute to the advancement of scientific knowledge in his field.

Overall, Prof. Amun Amri’s exemplary contributions to chemical engineering and nanomaterials research make him a deserving recipient of the Scientific Advancement Achievement Award, recognizing his dedication, expertise, and impact in advancing scientific knowledge and addressing real-world challenges.

Emre Cevik Imam | Materials Chemistry | Best Researcher Award

Posted on by ScienceFather

🌟Assoc Prof Dr. Emre Cevik Imam, Materials Chemistry, Best Researcher Award🏆

Associate professor at Abdurrahman Bin Faisal University, Saudi Arabia

Professional Profiles:

Bio Summary:

Dr. Emre Cevik is an accomplished Associate Professor with expertise in biotechnology and electrochemistry. Born on December 18, 1986, in Turkey, he holds Turkish nationality. Fluent in both Turkish and English, Dr. Cevik’s academic journey has been marked by significant contributions to the field.

Education:

Ph.D. (Biotechnology):

Institution: Istanbul University, Istanbul, Turkey

Year of Completion: 2016

M.Sc. (Genetics and Bioengineering):

Institution: Fatih University, Istanbul, Turkey

Year of Completion: 2012

B.Sc. (Chemistry):

Institution: Fatih University, Istanbul, Turkey

Year of Completion: 2009

Research Focus:

Dr. Cevik’s research primarily revolves around electrochemistry, batteries, energy storage, supercapacitors, bio-photovoltaic fuel cells, electrode design, and biosensors. His work has contributed significantly to the understanding and advancement of these fields.

Professional Journey:

Current Position:

Title: Associate Professor

Affiliation: Institute for Research and Medical Consultations, Imam Abdulrahman Bin Faisal University, Dammam, KSA

Duration: Since 2021

Previous Positions:

Assistant Professor, Imam Abdulrahman Bin Faisal University, Dammam, KSA (2017-2021)

General Manager, EMC Technology, Medical, Chemical & Consulting LTD, Istanbul, Turkey (2016-2017)

Researcher, Lund University, Lund, Sweden (2013-2014)

Research Assistant, Istanbul University (Formerly: Fatih University), Istanbul, Turkey (2010-2016)

Honors & Awards:

2016:

Newton Fund – Royal Academy of Engineering Leaders in Innovation Fellowship, United Kingdom

2015:

Turkey’s Ministry of Science, Industry and Technology – The Development of Screen Printed Electrodes for Electrochemical Applications, Istanbul, Turkey

PublicationsTop Noted & Contributions:

Dr. Cevik has a notable list of patents and applications, showcasing his pioneering work in flexible energy storage devices, gel electrolyte capacitors, and various methods for storing energy in hydrogel supercapacitors.

Title: An electrochemical immunosensor for sensitive detection of Escherichia coli O157: H7 by using chitosan, MWCNT, polypyrrole with gold nanoparticles hybrid sensing platform

  • Authors: A Güner, E Çevik, M Şenel, L Alpsoy
  • Journal: Food Chemistry
  • Year: 2017
  • Citations: 151
  • DOI: Link to the paper

Title: Amperometric hydrogen peroxide biosensor based on covalent immobilization of horseradish peroxidase on ferrocene containing polymeric mediator

  • Authors: M Şenel, E Çevik, MF Abasıyanık
  • Journal: Sensors and Actuators B: Chemical
  • Year: 2010
  • Citations: 126
  • DOI: Link to the paper

Title: Jute Sticks Derived and Commercially Available Activated Carbons for Symmetric Supercapacitors with Bio-electrolyte: A Comparative Study

  • Authors: SS Shah, E Cevik, MA Aziz, TF Qahtan, A Bozkurt, ZH Yamani
  • Journal: Synthetic Metals
  • Year: 2021
  • Citations: 100
  • DOI: Link to the paper

Title: Novel electrochemical xanthine biosensor based on chitosan–polypyrrole–gold nanoparticles hybrid bio-nanocomposite platform

  • Authors: M Dervisevic, E Dervisevic, E Çevik, M Şenel
  • Journal: Journal of Food and Drug Analysis
  • Year: 2017
  • Citations: 97

Title: Construction of novel xanthine biosensor by using polymeric mediator/MWCNT nanocomposite layer for fish freshness detection

  • Authors: M Dervisevic, E Custiuc, E Çevik, M Şenel
  • Journal: Food Chemistry

Author Metrics:

Citations:

Dr. Cevik has amassed a total of 2929 citations, indicating the number of times his work has been referenced in academic literature.

Since 2019, he has received 2240 citations, showcasing ongoing impact and relevance in recent years.

h-index (All Time):

The h-index of 33 signifies that Dr. Cevik has 33 publications that have each been cited at least 33 times.

h-index (Since 2019):

The h-index of 29 since 2019 suggests that he has 29 publications with at least 29 citations during this period.

i10-index (All Time):

The i10-index of 74 means that Dr. Cevik has 74 publications that have each received at least 10 citations.

Research Timeline:

Ph.D. Research (2016):

Thesis Title: Designing and Comparison of Electrochemical Biosensors for Detection of Prostate Cancer

M.Sc. Research (2012):

Thesis Title: An Amperometric Biosensor Based on Modified Nanoparticles with an Electron Transfer Mediator for the Determination of Phenol Derivatives

Post-Doctoral Research (2013-2014):

Location: Lund University, Lund, Sweden

This bio summary encapsulates Dr. Emre Cevik’s academic journey, research focus, professional contributions, honors, and awards, providing a comprehensive overview of his notable achievements and expertise in the field.

Chinnamuthu Paulsamy | Nanotechnology | Best Researcher Award

Posted on by ScienceFather
🌟Dr. Chinnamuthu Paulsamy, National Institute of Technology Nagaland, India:  Nanotechnology🏆
Professional Profiles:

Bio Summary:

Dr. P. Chinnamuthu is a highly accomplished professional in the field of Electronics and Communication Engineering, specializing in nanotechnology. He earned his Bachelor’s degree from Anna University in 2008, followed by a Master’s degree from Pondicherry University in 2010. Driven by a passion for nanotechnology, he completed his Ph.D. at NIT Agartala in 2013, focusing on the application of nanomaterials in electronic systems.

Education:

Bachelor’s Degree (B.E):

  • Institute/University: Anna University
  • Year of Graduation: 2008

Master’s Degree (M. Tech):

  • Institute/University: Pondicherry University
  • Year of Graduation: 2010

Doctoral Degree (Ph.D.):

  • Institute/University: NIT Agartala
  • Year of Graduation: 2013

Research Focus:

Dr. P. Chinnamuthu’s research focus centers on the interdisciplinary field of Electronics and Communication Engineering with a specialized emphasis on nanotechnology. His work has likely encompassed various aspects of nanoelectronics, nanomaterials, and their applications in electronic devices. Given his academic background and the chapters he has contributed to, Dr. Chinnamuthu may have explored topics related to metal oxide heterostructures, smart sensor systems for military and aerospace applications, and the sensing of environmental contaminants using advanced nanomaterials.

The emphasis on nanotechnology in his Ph.D. suggests a particular interest in the manipulation and application of materials at the nanoscale, which can have diverse applications in electronics, sensing, and environmental technologies. His research likely contributes to the broader understanding and advancement of nanoelectronics and its practical implications in various engineering domains.

Publications Top Noted & Contributions:

“Ultraviolet detection using TiO2 nanowire array with Ag Schottky contact”

  • Authors: P Chinnamuthu, JC Dhar, A Mondal, A Bhattacharyya, NK Singh
  • Journal: Journal of Physics D: Applied Physics
  • Year: 2012
  • Volume: 45 (13)
  • Pages: 135102
  • Citations: 90

“Band gap enhancement of glancing angle deposited TiO2 nanowire array”

  • Authors: P Chinnamuthu, A Mondal, NK Singh, JC Dhar, KK Chattopadhyay, …
  • Journal: Journal of Applied Physics
  • Year: 2012
  • Volume: 112 (5)
  • Citations: 47

“Highly efficient natural-sunlight-driven photodegradation of organic dyes with combustion-derived Ce-doped CuO nanoparticles”

  • Authors: SJ Singh, P Chinnamuthu
  • Journal: Colloids and Surfaces A: Physicochemical and Engineering Aspects
  • Year: 2021
  • Volume: 625
  • Pages: 126864
  • Citations: 39

“Annealed n-TiO2/In2O3 nanowire metal-insulator-semiconductor for highly photosensitive low-noise ultraviolet photodetector”

  • Authors: P Pooja, P Chinnamuthu
  • Journal: Journal of Alloys and Compounds
  • Year: 2021
  • Volume: 854
  • Pages: 157229
  • Citations: 26

“Visible light detection using glancing angle deposited TiO2 nanowire arrays”

  • Authors: P Chinnamuthu, A Mondal, JC Dhar, NK Singh
  • Journal: Japanese Journal of Applied Physics
  • Year: 2015
  • Volume: 54 (6S1)
  • Pages: 06FJ01
  • Citations: 24

“MWCNT decorated MnFe2O4 nanoparticles as an efficient photocatalyst for phenol degradation”

  • Authors: M Hazarika, P Chinnamuthu, JP Borah
  • Journal: Journal of Materials Science: Materials in Electronics
  • Year: 2018
  • Pages: 12231-12240
  • Citations: 22

“Performance of Erbium-doped TiO2 thin film grown by the physical vapor deposition technique”

  • Authors: R Lahiri, A Ghosh, SMMD Dwivedi, S Chakrabartty, P Chinnamuthu, …
  • Journal: Applied Physics A
  • Year: 2017
  • Volume: 123
  • Pages: 1-7
  • Citations: 19

“Electrical properties of vertically oriented TiO2 nanowire arrays synthesized by glancing angle deposition technique”

  • Authors: A Mondal, JC Dhar, P Chinnamuthu, NK Singh, KK Chattopadhyay, …
  • Journal: Electronic Materials Letters
  • Year: 2013
  • Pages: 213-217
  • Citations: 19

Employment Experience:

Dr. Chinnamuthu has accumulated a wealth of experience, contributing significantly to academia and research. His journey includes a Post-Doctoral Fellowship at the National Institute for Material Science (NIMS) in Japan, where he engaged in cutting-edge research from April 2013 to March 2015. Subsequently, he transitioned to the role of Assistant Professor at NIT Nagaland in March 2015, progressing to the position of Associate Professor from November 2022 to the present. His academic roles reflect a commitment to the dissemination of knowledge and the mentorship of future generations. 👨‍🏫