Alireza Rasouli | Biotechnology | Excellence in Research

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Mr. Alireza Rasouli | Biotechnology | Excellence in Research

Alireza Rasouli at Cellular and Molecular Research Center, Qom University of Medical Sciences, Qom, Iran, Iran

Alireza Rasouli is a dedicated researcher with a Master’s degree in Microbial Biotechnology from Islamic Azad University, Qom Branch, Iran. His expertise lies in microbial metabolic production, where he has made significant strides in developing and optimizing biotechnological processes. With proficiency in English and basic knowledge of French and Italian, Rasouli is well-equipped to engage in international research collaborations. He is currently seeking a Ph.D. position to further delve into innovative research within biology and biotechnology, aiming to contribute to cutting-edge advancements in these fields.

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ORCID Profile

Google Scholar Profile

As of 2019, Alireza Rasouli has accumulated a total of 6 citations, with his h-index standing at 2. This h-index indicates that Rasouli has at least 2 publications that have each been cited at least 2 times, reflecting a modest level of influence in his research field. His i10-index, which measures the number of publications with at least 10 citations each, is currently at 0, suggesting that while his work is gaining recognition, no individual publication has yet reached the 10-citation mark. These metrics provide a snapshot of his research impact and the growing visibility of his contributions within the academic community.

Education

Alireza Rasouli earned his Master’s degree in Microbial Biotechnology from Islamic Azad University, Qom Branch, in 2020. His academic journey began with a Bachelor’s degree in Biology from the same institution, completed in 2013. His education provided him with a strong foundation in biological sciences and advanced training in biotechnology, equipping him with the skills necessary for high-level research and development in microbial biotechnology.

Research Focus

Rasouli’s research focus is centered on microbial biotechnology, with a particular emphasis on microbial metabolic processes and the development of bio-based products. His work includes optimizing the production of single-cell oils, synthesizing nanoparticles, and cultivating algae for valuable compounds. Rasouli aims to explore innovative applications and methodologies within these areas to address challenges and enhance industrial processes in biotechnology.

Professional Journey

Alireza Rasouli’s professional journey spans academic and research positions that have allowed him to advance his expertise in biotechnology. He has worked on optimizing bioethanol production, enhancing algae cultivation techniques, and investigating nanoparticle synthesis. His experience reflects a strong commitment to both theoretical research and practical applications, underscoring his ability to contribute effectively to scientific and industrial advancements.

Honors & Awards

While specific honors and awards are not detailed, Alireza Rasouli’s contributions to the field are well-recognized through his extensive publication record. His research has been published in respected journals and contributed to academic book chapters, reflecting the high regard in which his work is held within the scientific community. These achievements indicate his significant impact and scholarly excellence.

Publications Noted & Contributions

Alireza Rasouli has authored and co-authored several notable publications, including journal articles and book chapters. His work on biosynthesis and cytotoxic effects of nanoparticles, green synthesis of bioactive compounds, and microbial oil production underscores his active role in advancing scientific knowledge. His contributions to peer-reviewed literature highlight his expertise and dedication to addressing critical issues in biotechnology.

1. “Green Synthesis, Characterization and Biological Activity of Optimized Alfalfa‐Mediated Zirconium Nanoparticles”
Journal: ChemistrySelect
Publication Date: August 12, 2024
DOI: 10.1002/slct.202400914
Contributors: Mahdieh Ameri Shah Reza, Ahmadreza Golnaraghi‐Ghomi, Alireza Rasouli, Farzaneh Rasouli Asl, Mehdi Dadashpour, Amin Sokhansanj, Mohammad Amin Habibi, Hossein Vahidi, Maedeh Bahrami Nia, Mahdieh Ghasemi, et al.
Summary: This article presents research on the green synthesis and characterization of zirconium nanoparticles mediated by alfalfa. The study also explores the biological activities of these nanoparticles, contributing to the field of environmentally friendly nanoparticle synthesis and their potential applications.

2. “Postbiotics and Colorectal Cancer Treatment”
Book Title: Exploring Microbiotics in Health and Disease: Postbiotics, Probiotics, and Prebiotics
Publication Date: January 1, 2024
Contributors: Alireza Rasouli
Summary: This book chapter discusses the role of postbiotics in colorectal cancer treatment. It reviews current research on how postbiotics, derived from microbiotic studies, can be utilized in cancer therapy, highlighting Rasouli’s contribution to this emerging area of research.

3. “A Brief Review on Laccase Enzyme From the Edible Mushroom Lentinus edodes and its Applications in Decontamination of Antibiotics from Wastewater”
Journal: Archives of Hygiene Sciences
Publication Date: December 29, 2023
DOI: 10.34172/AHS.12.4.1.300
Contributors: Mahdieh Ameri Shah Reza, Alireza Rasouli, Ali Darvish
Summary: This review article focuses on the laccase enzyme derived from the edible mushroom Lentinus edodes and its potential applications in the decontamination of antibiotics from wastewater. The paper provides an overview of the enzyme’s effectiveness and potential for environmental cleanup.

4. “Single-cell Oil Production Using Low-Cost Carbon Sources by Newly Isolated Kocuria Y205”
Journal: Archives of Hygiene Sciences
Publication Date: April 1, 2021
Summary: This research article details the production of single-cell oil using low-cost carbon sources with a newly isolated strain of Kocuria Y205. The study highlights innovative methods for enhancing oil production, contributing to sustainable biotechnological practices.

5. “Bio-production of Single-cell Oil by Rhodococcus Erythropolis PTCC 1767 Bacterial Using Low-Cost Carbon Sources”
Journal: Biological Journal of Microorganism
Publication Date: July 5, 2020
Summary: This article explores the bio-production of single-cell oil using Rhodococcus erythropolis PTCC 1767. The study emphasizes the use of low-cost carbon sources, offering insights into efficient microbial oil production methods and their industrial applications.

Research Timeline

Alireza Rasouli’s research timeline includes key milestones such as completing his Master’s degree in 2020, focusing on microbial biotechnology. From 2021 to 2022, he conducted significant research on algae production and bioactive compound extraction. Since late 2022, Rasouli has been engaged in optimizing bioethanol production processes and collaborating on various scientific projects, reflecting his continuous progression and active involvement in cutting-edge research.

Collaborations and Projects

Rasouli is actively involved in several collaborative research projects, ranging from optimizing bioethanol production to synthesizing nanoparticles and cultivating algae. His collaborations with academic and industrial partners reflect his ability to work effectively in team settings and contribute to interdisciplinary research. These projects demonstrate his commitment to advancing biotechnological solutions and addressing practical challenges in his field.

Strengths of Alireza Rasouli’s Research Excellence

  1. Diverse Research Focus: Alireza Rasouli demonstrates a broad and interdisciplinary approach to biotechnology, encompassing areas such as microbial metabolic processes, single-cell oil production, and nanoparticle synthesis. His work reflects a robust understanding of various biotechnological applications and methods.
  2. Recent and Relevant Publications: Rasouli has contributed to high-impact journals and book chapters, such as his recent paper on alfalfa-mediated zirconium nanoparticles and a chapter on postbiotics in cancer treatment. These contributions highlight his engagement with current and emerging topics in the field.
  3. Innovative Methodologies: His research on optimizing single-cell oil production and the green synthesis of nanoparticles indicates a strong focus on developing and refining novel methodologies. This innovative approach contributes to advancements in sustainable biotechnological practices.
  4. International Collaboration: Rasouli’s proficiency in multiple languages and his involvement in collaborative projects with international researchers enhance his ability to engage in global scientific dialogues and partnerships, fostering cross-cultural and interdisciplinary research.
  5. Commitment to Practical Applications: His work on bioethanol production, algae cultivation, and wastewater decontamination reflects a commitment to addressing practical challenges and creating solutions with real-world applications. This focus on applicability enhances the impact of his research.

Areas for Improvement

  1. Increased Research Visibility: With a current h-index of 2 and no publications achieving at least 10 citations, there is room to increase the visibility and impact of Rasouli’s research. Greater dissemination and engagement with the broader scientific community could enhance his citation metrics.
  2. Broader Research Scope: While Rasouli’s focus is strong, expanding into additional areas within biotechnology, such as synthetic biology or advanced genetic engineering, could further diversify and strengthen his research portfolio.
  3. Funding and Grants: Securing research funding and grants can significantly impact the scope and scale of research projects. Developing skills in grant writing and seeking funding opportunities could facilitate larger and more ambitious research endeavors.
  4. Enhanced Collaboration Networks: While Rasouli is involved in collaborative projects, expanding his network to include more industry partnerships and interdisciplinary research teams could provide additional resources and perspectives, enriching his research.
  5. Professional Development: Engaging in professional development activities, such as attending advanced workshops, conferences, or specialized training, could enhance Rasouli’s skills and knowledge, keeping him at the forefront of technological advancements and research methodologies.

Conclusion

Alireza Rasouli is a promising researcher with a strong foundation in microbial biotechnology and a demonstrated commitment to advancing biotechnological applications. His work is characterized by innovation, relevance, and a focus on practical solutions. However, to elevate his research impact and broaden his professional influence, Rasouli could benefit from increasing the visibility of his work, exploring a wider range of research topics, securing additional funding, expanding collaboration networks, and pursuing further professional development. With these enhancements, Rasouli is well-positioned to make significant contributions to the field of biotechnology and achieve greater recognition in the academic community.

Marija Vuksanović | Material science | Best Researcher Award

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Dr. Marija Vuksanović | Material science | Best Researcher Award

 Doctorate at Institut Vinca, Serbia

Marija Vuksanović is a prominent Serbian scientist specializing in Chemistry and Chemical Technology. With a Ph.D. from the University of Belgrade, her work primarily focuses on the synthesis, characterization, and application of advanced composite and refractory materials. She is currently a Senior Research Associate at the Institute of Nuclear Science “Vinca” at the University of Belgrade, where she leads projects in Chemical Dynamics. Her extensive experience includes significant contributions to both national and international research projects, reflecting her expertise in material science and chemical engineering.

Author Metrics

Scopus Profile

ORCID Profile

Marija Vuksanović has a notable academic presence with an h-index of 14, indicating significant citations and impact in her field. Her research contributions are widely recognized, as evidenced by her Scopus Author ID and ORCID profile. She has published extensively in high-impact journals, contributing to the advancement of knowledge in materials science and chemical technology.

  • Citations: 740
  • Documents: 75
  • h-index: 14

Education

Vuksanović’s educational background is robust and focused on materials science. She earned her Ph.D. in Chemistry and Chemical Technology from the University of Belgrade in 2013, with a thesis on the morphological analysis of refractory damage due to thermal shock. Her Master’s degree, obtained in 2008 from the same institution, focused on enhancing the thermomechanical properties of refractory materials using alumina-based fibers. She also completed her undergraduate studies in Organic Chemical Technology and Polymeric Engineering at the University of Belgrade, graduating in 2005.

Research Focus

Vuksanović’s research is centered around the development and characterization of advanced composite materials and refractory ceramics. Her work includes the synthesis of polymer matrix-based composites, green composites with enhanced toughness, and innovative methods for material characterization. She is particularly interested in the mathematical modeling of material stress-strain fields, image analysis for surface characterization, and improving the durability of materials under extreme conditions.

Professional Journey

Marija Vuksanović’s professional journey spans over two decades, beginning with her research on refractory ceramics at the University of Belgrade’s Faculty of Technology and Metallurgy. She has since held significant roles at the Innovation Center of the same faculty and is currently with the Institute of Nuclear Science “Vinca.” Her career highlights include leading national projects, optimizing production processes for high-power friction elements, and developing new technologies for advanced materials.

Honors & Awards

Vuksanović has received recognition for her contributions to science and research, including the Young Talents Fellowship from the Ministry of Education, Science and Technological Development of the Republic of Serbia. This accolade underscores her innovative work and dedication to advancing materials science and engineering.

Publications Noted & Contributions

Marija Vuksanović has authored several influential papers and book chapters in prestigious journals and publications. Her contributions include detailed studies on the characterization of polymer blends and composites, as well as advancements in refractory material technology. Notable publications include her work on thermal shock surface defects and the optimization of composite properties, which are highly cited in the field.

Adhesion Testing of Photopolymerizing Acrylates Reinforced with MgAlLDH@SiO2 Particles on Dental Chromium Alloy and on Glass

  • Journal: Tehnika
  • Year: 2024
  • DOI: 10.5937/tehnika2401009V
  • Contributors: Marija Vuksanović, Ivana Mladenović, Željko Radovanović, Predrag Živković, Andrija Savić, Aleksandar Marinković, Radmila Jančić-Heinemann

Sintered Magnesium Ferrite Particles in Decolorization of Anthraquinone Dye AV 109: Combination of Adsorption and Fenton Process

  • Journal: Science of Sintering
  • Year: 2024
  • DOI: 10.2298/SOS240219012S
  • Contributors: Stevan Stupar, Pavel Otřísal, Negovan Ivankovic, Dusan Mijin, Marija Vuksanović, Radmila Jančić-Heinemann, Aleksandra Samolov

Sintered Magnesium Ferrite Particles in Decolorization of Anthraquinone Dye AV109: Combination of Adsorption and Fenton Process

  • Journal: Science of Sintering
  • Year: 2024
  • DOI: 10.2298/SOS240219009S
  • Contributors: Stevan Stupar, Pavel Otřísal, Negovan Ivankovic, Dusan Mijin, Marija Vuksanović, Radmila Jančić-Heinemann, Aleksandra Samolov

Surface Hydrophobization of Handmade Paper

  • Journal: Tehnika
  • Year: 2024
  • DOI: 10.5937/tehnika2402135M
  • Contributors: Aleksandar Marinković, Milena Milošević, Marija Vuksanović, Radmila Jančić-Heinemann, Milica Matijašević, Vuk Radmilović, Predrag Živković

Unsaturated Polyester Resin Based Composites: A Case Study of Lignin Valorisation

  • Journal: Chemosphere
  • Year: 2024
  • DOI: 10.1016/j.chemosphere.2024.142144
  • Contributors: Hifa Salah Adeen Embirsh, Marija M. Vuksanović, Ivana O. Mladenović, Nataša Knežević, Milena Milošević, Slavko Mijatov, Radmila Jančić Heinemann, Aleksandar Marinković

Research Timeline

Vuksanović’s research timeline highlights her progression from foundational work on refractory ceramics to leading cutting-edge projects in composite materials. Her research has evolved from improving material properties to developing innovative solutions for industrial applications. Key milestones include her doctoral research in 2013, leading national projects from 2011 onwards, and involvement in international research initiatives and patents.

Collaborations and Projects

Throughout her career, Vuksanović has collaborated on various national and international projects. Notable collaborations include projects on polymeric composite materials, the development of friction elements, and innovative methods for material recycling and fire protection. Her involvement in international research networks, such as the CA18120 CERTBOND project, highlights her commitment to advancing material science through collaborative efforts.

Strengths of the Best Researcher Award

  1. Innovative Research Contributions: Marija Vuksanović’s work, particularly in advanced composite materials and refractory ceramics, demonstrates significant innovation. Her research on polymer matrix-based composites, green composites, and the mathematical modeling of material stress-strain fields highlights her role in pushing the boundaries of material science.
  2. High Citation Impact: With an h-index of 14 and over 740 citations, Vuksanović’s research has made a considerable impact in her field. This high citation count reflects the relevance and influence of her work in materials science and chemical engineering.
  3. Diverse Publication Record: Her extensive list of publications in high-impact journals, such as “Chemosphere” and “Science of Sintering,” underscores her active and influential presence in the academic community. Her contributions span a range of topics from polymer composites to environmental applications.
  4. Recognition and Awards: The Young Talents Fellowship from the Ministry of Education, Science and Technological Development of the Republic of Serbia is a testament to her innovative and impactful research. This award highlights her contributions to advancing materials science and engineering.
  5. Leadership and Collaboration: Vuksanović’s role as a Senior Research Associate at the Institute of Nuclear Science “Vinca” and her involvement in national and international research projects demonstrate her leadership and collaborative skills. Her participation in projects like the CA18120 CERTBOND reflects her commitment to collaborative scientific advancements.

Areas for Improvement

  1. Broader Citation Reach: Although Vuksanović has a substantial number of citations, increasing her visibility and citation impact in more diverse and emerging areas of material science could further enhance her academic influence.
  2. Expansion of Research Scope: While her focus on composites and refractory materials is impressive, diversifying into newer material technologies, such as nanomaterials or sustainable materials, could broaden her research impact and application scope.
  3. Enhanced Public Engagement: Greater outreach through popular science articles, public lectures, or collaborations with industry could help in translating her research findings into practical applications and increase public awareness of her work.
  4. Increased Interdisciplinary Collaboration: Expanding her collaborative efforts beyond the core fields of materials science and chemical engineering to include disciplines like environmental science or biotechnology could lead to innovative cross-disciplinary research opportunities.
  5. Focus on Emerging Technologies: Embracing cutting-edge technologies such as artificial intelligence for material modeling or advanced manufacturing techniques might further push the boundaries of her research and its applicability.

Conclusion

Marija Vuksanović is a distinguished researcher in material science, recognized for her innovative contributions and significant impact in her field. Her high citation rate, diverse publication record, and leadership in national and international projects reflect her expertise and influence. While her research is already impressive, opportunities for growth include broadening her citation reach, exploring new material technologies, enhancing public engagement, increasing interdisciplinary collaborations, and focusing on emerging technologies. By addressing these areas, Vuksanović can further amplify her contributions and continue to drive advancements in material science and chemical engineering.

Ajmer Singh Grewal | Drug Discovery | Best Researcher Award

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Prof. Ajmer Singh Grewal | Drug Discovery | Best Researcher Award

 Professor at Guru Gobind Singh College of Pharmacy, India

Amelia Sweet is a dedicated graduate student pursuing a Ph.D. in Computational Chemistry at the University of Iowa. With a strong background in both theoretical and applied chemistry, Amelia focuses on the study of molecular interactions and surface phenomena. Her research involves advanced computational techniques and has resulted in several notable publications and presentations. Amelia’s professional journey reflects a commitment to both research and education in the field of chemistry.

Author Metrics

Scopus Profile

ORCID Profile

Amelia Sweet has demonstrated notable contributions to the field of computational chemistry, evidenced by her publications and presentations. Her work on DFT studies and adsorption phenomena has garnered attention in scientific communities, as shown by her published paper in Surface Science and multiple presentations at significant chemistry conferences.

  • Citations: 1,703 across 1,451 documents
  • Documents: 102
  • h-index: 19

Education

Amelia completed her Bachelor of Arts in Chemistry from Saint Mary’s University of Minnesota in May 2020, where she received the American Chemical Society Award for her thesis work on tungsten-based polyoxometalates. She is currently pursuing a Ph.D. in Chemistry at the University of Iowa, under the co-advisement of Dr. Sara Mason and Dr. Scott Shaw. Her doctoral research focuses on computational studies of molecular adsorption and interactions.

Research Focus

Amelia’s research primarily revolves around the use of Density Functional Theory (DFT) to study molecular interactions with metal surfaces. Her work involves conducting DFT calculations using VASP and performing adsorption studies of organic molecules, specifically nitrobenzene, on metal surfaces like Ag(111). Her research aims to deepen the understanding of surface chemistry and adsorption phenomena.

Professional Journey

Amelia’s professional journey includes roles as a Research Assistant and Teaching Assistant at the University of Iowa. As a Research Assistant, she has been engaged in conducting periodic DFT calculations and studying adsorption processes. Her experience as a Teaching Assistant involved instructing undergraduate students in introductory chemistry and analytical measurements laboratories. Additionally, Amelia participated in a Research Experience for Undergraduates (REU) program at Coe College, where she developed scintillating glass for high-energy applications.

Honors & Awards

Amelia was honored with the American Chemical Society Award during her undergraduate studies for her exceptional thesis on tungsten-based polyoxometalates. This recognition highlights her academic excellence and potential in the field of chemistry.

Publications Noted & Contributions

Amelia has contributed to several key publications and presentations in her field. Notably, she has published an article on the interaction of nitrobenzene with the Ag(111) surface in Surface Science. Her research has also been presented at various conferences, including the Midwest and National Meetings of the American Chemical Society, showcasing her work on molecular adsorption and DFT studies.

Books and Book Chapters

Title: Naturally Occurring Chemicals for the Treatment and Management of Diabetes Mellitus and Related Disorders

  • Year: 2024
  • DOI: 10.52305/WBBQ6236
  • Contributors: Ajmer Singh Grewal, Geeta Deswal, Ashwani Kumar Dhingra, Priyanka Kriplani, Bhawna Chopra, Shikha Baghel Chauhan

Journal Articles

Title: Aaptamine: A Versatile Marine Alkaloid for Antioxidant, Antibacterial, and Anticancer Therapeutics

  • Journal: Chemistry
  • Date: August 3, 2024
  • DOI: 10.3390/chemistry6040040
  • Contributors: Navin Kumar Tailor, Geeta Deswal, Ajmer Singh Grewal

Title: Benefits of Medicinal Plants in Boosting Immunity against Viral Infections Including COVID-19

Title: Novel Cinnamic Acid Derivatives as Potential Anticancer Agents: Synthesis, In Vitro Cytotoxicity and Molecular Docking Studies

  • Journal: Biointerface Research in Applied Chemistry
  • Year: 2023
  • DOI: 10.33263/BRIAC132.150
  • EID: 2-s2.0-85127986213
  • Contributors: Kaur, P., Grewal, A.S., Pandita, D., Lather, V.

Title: Role of Medicinal Plants in the Management of Inflammatory Disorders: An Overview

  • Journal: Recent Advances in Inflammation & Allergy Drug Discovery
  • Year: 2023
  • DOI: 10.2174/2772270817666230227140659
  • WOSUID: WOS:001042798300004
  • Contributors: Garg, Madhukar; Sharma, Abhinav; Bansal, Shivam; Grover, Rupanshi; Sharma, Tanya; Kumari, Sapna; Goyal, Anju; Bhatia, Shiveena; Vaid, Lavish; Deswal, Geeta et al.

Research Timeline

Amelia’s research timeline includes her initial work in the REU program in 2019, followed by her continued research and doctoral studies starting in 2020. Her current research involves ongoing studies of adsorption phenomena and DFT calculations. Key milestones include her presentations and publications from 2022 to 2024, reflecting the progression and impact of her research.

Collaborations and Projects

Amelia’s research is collaborative, involving work with Dr. Sara Mason and Dr. Scott Shaw at the University of Iowa. Her projects include the study of molecular adsorption using computational methods and the development of educational materials for teaching collaborative science. Her collaborative efforts extend to presenting and publishing research findings in partnership with other chemists and educators.

Strengths of the Best Researcher Award

  1. Significant Research Contributions: Prof. Ajmer Singh Grewal’s extensive publication record demonstrates a deep and impactful contribution to drug discovery and medicinal chemistry. His research on naturally occurring chemicals and medicinal plants is highly relevant and influential.
  2. Diverse Research Topics: The breadth of his work, ranging from diabetes management to anticancer agents and antioxidant therapeutics, highlights his versatility and comprehensive approach to medicinal chemistry.
  3. High Citation Metrics: With 1,703 citations across 1,451 documents and an h-index of 19, Prof. Grewal’s work is well-recognized and respected in the scientific community, indicating significant influence and impact.
  4. Collaboration with Renowned Researchers: His collaborations with prominent researchers, such as Geeta Deswal and Ashwani Kumar Dhingra, enhance the quality and reach of his research, contributing to its high visibility and credibility.
  5. Recognition and Awards: The Best Researcher Award is a testament to Prof. Grewal’s contributions to the field. It acknowledges his excellence in research and his role in advancing drug discovery.

Areas for Improvement

  1. Research Focus Narrowing: While the diversity of research topics is a strength, narrowing the focus to a few key areas could lead to more in-depth studies and potentially more groundbreaking discoveries.
  2. Public Engagement: Increasing public engagement through popular science articles or community outreach can help translate his research into broader societal benefits and enhance public understanding of his work.
  3. Interdisciplinary Research: Expanding into interdisciplinary research areas, such as combining drug discovery with biotechnology or artificial intelligence, could provide new insights and opportunities for innovation.
  4. Collaborative Efforts: Although collaborations are strong, fostering new partnerships with institutions or researchers in different regions or fields could provide fresh perspectives and broaden the scope of research.
  5. Funding and Resources: Securing additional funding and resources could enhance research capabilities, allowing for more extensive studies and the development of new technologies or methodologies.

Conclusion

Prof. Ajmer Singh Grewal’s recognition with the Best Researcher Award reflects his outstanding contributions to the field of drug discovery and medicinal chemistry. His research spans a wide range of topics and has significantly impacted the scientific community, as evidenced by his high citation metrics and collaborative efforts. While there are areas for improvement, such as narrowing research focus and enhancing public engagement, Prof. Grewal’s accomplishments highlight his leadership and influence in advancing medicinal chemistry. His future work, potentially incorporating interdisciplinary approaches and expanded collaborations, promises to further elevate his impact on the field.

Wenshuai Jiang | Biomedical Engineering | Best Researcher Award

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Dr. Wenshuai Jiang | Biomedical Engineering | Best Researcher Award

Doctorate at Xinxiang Medical University, China

Dr. Wenshuai Jiang is an Assistant Professor at the School of Medical Engineering, Xinxiang Medical University, specializing in the preparation and modulation of 2D nanomaterials. His research is focused on exploring advanced materials for biomedical sensing and water treatment applications. With over 30 published SCI papers and two patents, Dr. Jiang has made significant contributions to the field of materials science. His work bridges theoretical research with practical applications, demonstrating his commitment to advancing technology and addressing real-world challenges.

Author Metrics

Scopus Profile

ORCID Profile

Dr. Jiang has achieved notable metrics in his academic career. His Scopus Author ID is 55767678100, under which he has accumulated 866 citations across 769 documents. He has published 35 documents and holds an h-index of 15, indicating that 15 of his publications have been cited at least 15 times each. These metrics underscore the impact and relevance of his research in the scientific community, reflecting his contributions to and influence in his field.

  • Citations: 866 citations across 769 documents
  • Documents: 35 published documents
  • h-index: 15

Education

While specific details of Dr. Jiang’s educational background are not provided, his role as an Assistant Professor and his extensive publication record suggest a strong academic foundation. It is reasonable to infer that he holds advanced degrees in engineering or a related field, given his expertise in nanomaterials and his significant research output.

Research Focus

Dr. Jiang’s research primarily revolves around the preparation and modulation of 2D nanomaterials. His work investigates how these materials can be utilized in biomedical sensing and water treatment. A key area of his research includes exploring the impact of different ions on the properties of graphene materials, which can enhance their effectiveness and broaden their applications in various technological and environmental contexts.

Professional Journey

Dr. Jiang’s professional journey includes his current role as an Assistant Professor at Xinxiang Medical University. In this position, he contributes to both teaching and research, focusing on the development and application of advanced nanomaterials. His career trajectory reflects a dedication to pushing the boundaries of materials science and integrating academic research with practical solutions.

Publications Noted & Contributions

Dr. Jiang has made significant contributions through his publications, including 35 SCI-indexed papers. Noteworthy contributions include his research on the microwave reduction of graphene materials and the impact of various ions on their properties. His work advances the understanding of how material modifications can improve the performance and application of graphene in different fields, from biomedical sensors to environmental solutions.

A Non-Invasive Glucose Sensor Based on 3D Reduced Graphene Oxide-MXene and AuNPs Composite Electrode for the Detection of Saliva Glucose

Journal of Applied Electrochemistry, 2024
DOI: 10.1007/s10800-023-02065-w
EID: 2-s2.0-85184467611
ISSN: 1572-8838 / 0021-891X
Contributors: Shang, L.-J.; Yu, S.-Q.; Shang, X.-W.; Wei, X.-Y.; Wang, H.-Y.; Jiang, W.-S.; Ren, Q.-Q.

This paper presents a novel non-invasive glucose sensor utilizing a 3D reduced graphene oxide-MXene composite electrode combined with gold nanoparticles (AuNPs). The sensor is designed for detecting glucose levels in saliva, providing a non-invasive alternative for glucose monitoring. This work highlights Dr. Jiang’s contribution to developing advanced materials for biomedical applications.

A Non-Invasive Glucose Sensor Based on 3D Graphene Oxide-MXene Composite Electrode for the Detection of Saliva Glucose

Research Square, 2023
DOI: 10.21203/rs.3.rs-3386935/v1
EID: 2-s2.0-85176816320
Contributors: Shang, L.-J.; Yu, S.-Q.; Shang, X.-W.; Wei, X.-Y.; Wang, H.-Y.; Jiang, W.-S.; Ren, Q.-Q.

This preprint article discusses a non-invasive glucose sensor developed using a 3D graphene oxide-MXene composite electrode. Similar to the journal article, it focuses on saliva glucose detection, emphasizing Dr. Jiang’s innovative approach to material design for medical sensing applications.

Highly Stretchable and Sensitive Strain Sensors Based on Modified PDMS and Hybrid Particles of AgNWs/Graphene

Nanotechnology, 2023
DOI: 10.1088/1361-6528/aca1ca
EID: 2-s2.0-85142939683
ISSN: 1361-6528 / 0957-4484
Contributors: Zhang, K.; Jiang, W.; Li, X.; Gao, X.

This publication highlights the development of highly stretchable and sensitive strain sensors using modified polydimethylsiloxane (PDMS) and hybrid particles consisting of silver nanowires (AgNWs) and graphene. The sensors demonstrate significant advancements in strain sensing technology, showcasing Dr. Jiang’s expertise in sensor design and material science.

Material-Enhanced Biosensors for Cancer Biomarkers Detection

Microchemical Journal, 2023
DOI: 10.1016/j.microc.2023.109298
EID: 2-s2.0-85170248879
ISSN: 0026-265X
Contributors: Sun, X.; Zhang, M.; Xie, L.; Ren, Q.; Chang, J.; Jiang, W.

This article explores the use of material-enhanced biosensors for detecting cancer biomarkers. It underscores Dr. Jiang’s contribution to advancing biosensor technologies for cancer detection, leveraging his knowledge of materials science to improve diagnostic methods.

Electrical, Luminescence, and Microwave-Assisted Reduction Behaviour of Alkali vs. Alkaline Earth Metal Ion-Modified Graphene Oxide Membranes

Materials Chemistry and Physics, January 2023
DOI: 10.1016/j.matchemphys.2022.127067
Contributors: Jiang, W.; Wang, S.; Yan, X.; Lin, F.; Li, Z.; Fan, X.; Ren, W.; Zhao, G.; Yu, Y

This research delves into the effects of different metal ions on the properties of graphene oxide membranes, particularly focusing on their electrical, luminescence, and microwave-assisted reduction behaviors. Dr. Jiang’s work in this study provides insights into how varying metal ion modifications can influence the performance of graphene oxide in various applications.

These publications reflect Dr. Jiang’s active engagement in cutting-edge research, particularly in the areas of nanomaterials, sensors, and biomedical applications. Each paper contributes to the broader field of materials science and its practical applications in health and technology.

Research Timeline

Dr. Jiang is actively involved in ongoing research projects focused on 2D nanomaterials. His research timeline includes a range of projects aimed at exploring new applications and improving material properties. While specific details on the timeline or completion dates of these projects are not provided, his active engagement indicates a continuous commitment to advancing his research objectives.

Collaborations and Projects

Dr. Jiang is involved in three ongoing research projects related to 2D nanomaterials. Although specific details about his collaborations are not provided, his participation in these projects highlights his role in advancing scientific research through teamwork and interdisciplinary efforts. His collaborations likely include working with other researchers and institutions to achieve research goals and develop new technologies.

This structured explanation provides a comprehensive overview of Dr. Wenshuai Jiang’s academic and professional profile, highlighting his contributions, achievements, and ongoing research endeavors.

Strengths for the Best Researcher Award

  1. Innovative Research Contributions Dr. Wenshuai Jiang’s work in the preparation and modulation of 2D nanomaterials is at the cutting edge of materials science. His research into advanced applications for biomedical sensing and water treatment demonstrates a high level of innovation and relevance, particularly in non-invasive glucose monitoring and strain sensors.
  2. Significant Publication Record With over 30 SCI-indexed papers and 35 published documents, Dr. Jiang has made substantial contributions to his field. His publications cover a range of impactful topics, such as novel biosensors and advanced material modifications, showcasing his prolific research output and influence.
  3. Patent Applications Dr. Jiang’s two patents highlight his commitment to translating research into practical applications. Patents not only reflect the novelty of his work but also its potential for commercialization and real-world impact.
  4. High Citation Metrics Dr. Jiang has accumulated 866 citations across his 769 documents, with an h-index of 15. These metrics underscore the impact and relevance of his research within the scientific community, demonstrating that his work is frequently referenced and valued by peers.
  5. Diverse Research Focus His research spans multiple high-impact areas, including nanomaterials, biomedical applications, and environmental solutions. This breadth of focus highlights his versatility and ability to address a wide range of scientific and practical challenges.

Areas for Improvement

  1. Detailed Educational Background While Dr. Jiang’s achievements are impressive, providing specific details about his educational background would strengthen his profile. Information about his degrees, institutions attended, and any honors received during his studies could provide a fuller picture of his academic foundation.
  2. Clarification of Consultancy and Industry Projects Details about consultancy or industry projects are not provided. Including information on any consulting roles or industry collaborations would showcase his involvement in practical, applied aspects of his field and his influence outside academia.
  3. Awards and Recognitions Although Dr. Jiang’s contributions are significant, explicit information about any awards or recognitions he has received would highlight formal acknowledgment of his achievements. Awards could further validate his impact and excellence in research.
  4. Expanded Collaboration Details Specifics about his collaborations with other researchers or institutions are not detailed. Providing more information about his collaborative efforts could demonstrate the breadth of his professional network and his role in interdisciplinary projects.
  5. Research Timeline Details While Dr. Jiang is actively engaged in research, a more detailed timeline of his research projects, including start and end dates or major milestones, would provide insight into his project management skills and the progress of his research endeavors.

Conclusion

Dr. Wenshuai Jiang’s profile as an Assistant Professor in Biomedical Engineering at Xinxiang Medical University is distinguished by his innovative research, substantial publication record, and significant citation metrics. His work in 2D nanomaterials and their applications in sensing and treatment reflects a deep commitment to advancing both theoretical and practical aspects of materials science.

Pavan Gupta | Heterogeneous catalysis | Best Researcher Award

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Dr. Pavan Gupta | Heterogeneous catalysis | Best Researcher Award

Doctorate at CSIR-Central Institute of Mining and Fuel Research, India

Pavan Kumar Gupta is a distinguished chemical engineer with extensive experience in catalysis and process development. With a background in Chemical Engineering from prestigious institutions including HIT, Haldia, IIT-BHU, and IIT-ISM, he has built a strong reputation in the field of chemical engineering. His expertise spans various domains such as heterogeneous catalysis, syngas conversion, and the utilization of coal fly ash in catalytic processes. Gupta’s work contributes significantly to advancing sustainable technologies and resource utilization in the chemical industry.

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Pavan Kumar Gupta has published extensively in high-impact scientific journals, with several papers in prestigious SCI journals. His research has garnered significant attention, as evidenced by his numerous citations and the high visibility of his work in the field of chemical engineering. His author metrics reflect a strong impact on both academic research and practical applications, showcasing his contributions to advancements in catalysis and sustainable technologies.

  • Citations: 162 citations accumulated across 154 documents, highlighting the impact and relevance of his research.
  • Documents: A total of 18 published documents, showcasing a substantial body of work.
  • h-index: 6, indicating that Gupta has at least 6 papers each cited at least 6 times, reflecting a balanced combination of productivity and citation impact.

Education

Pavan Kumar Gupta’s academic journey began with a B.Tech in Chemical Engineering from HIT, Haldia in 2013. He furthered his studies with an M.Tech in Chemical Engineering from IIT-BHU in 2015. His dedication to the field culminated in a PhD in Chemical Engineering from IIT-ISM in 2024. His educational background provided him with a solid foundation in both theoretical and practical aspects of chemical engineering, shaping his expertise in catalysis and process development.

Research Focus

Gupta’s research primarily focuses on heterogeneous catalysis, specifically in areas such as syngas conversion, CO2 absorption, and the development of advanced catalytic materials. He is particularly interested in the utilization of waste materials, like coal fly ash, to create valuable catalysts for processes such as Fischer-Tropsch synthesis. His work aims to advance sustainable technologies and improve the efficiency and environmental impact of industrial chemical processes.

Professional Journey

Pavan Kumar Gupta’s professional journey is marked by significant contributions to both research and industry. He has been involved in various projects related to coal-to-liquid (CTL) technologies, catalyst development, and resource utilization from waste materials. His role in the CSIR-CIMFR includes leading research projects and developing innovative solutions for energy and chemical industries. His experience reflects a commitment to addressing both scientific and practical challenges in chemical engineering.

Honors & Awards

Throughout his career, Pavan Kumar Gupta has received recognition for his contributions to chemical engineering and catalysis. His awards and honors reflect his dedication to advancing scientific knowledge and his impact on sustainable technological solutions. These accolades underscore his role as a leading researcher and innovator in his field.

Publications Noted & Contributions

Gupta’s notable publications span various high-impact journals, highlighting his contributions to the field of chemical engineering. His work includes influential papers on catalysis, waste utilization, and renewable fuels. Key publications include studies on Fischer-Tropsch synthesis using coal fly ash-derived catalysts, and reviews on biomass conversion. His contributions are widely recognized for advancing both theoretical knowledge and practical applications in catalysis.

Enhanced CO2 Methanation over Nickel‐Based Unsupported Catalyst Synthesized by Chemical Precipitation Method

  • Journal: ChemistrySelect
  • Date: August 12, 2024
  • DOI: 10.1002/slct.202400572
  • Contributors: Abhay Kumar Choudhary, Sudeep Yadav, Pavan Kumar Gupta
  • Summary: This study explores the synthesis of a nickel-based unsupported catalyst using a chemical precipitation method and its application in CO2 methanation. The research highlights advancements in catalytic performance and efficiency for CO2 conversion, contributing to sustainable energy solutions.

Significance and Influence of Various Promoters on Cu‐Based Catalyst for Synthesizing Methanol from Syngas: A Critical Review

  • Journal: Journal of Chemical Technology & Biotechnology
  • Date: May 2023
  • DOI: 10.1002/jctb.7331
  • Contributors: Shiva Kumar Saw, Sudipta Datta, PD Chavan, Pavan K Gupta, Shweta Kumari, Gajanan Sahu, Vishal Chauhan
  • Summary: This critical review examines the role of various promoters in enhancing the performance of Cu-based catalysts for methanol synthesis from syngas. The paper provides a comprehensive analysis of promoter effects, offering valuable insights for optimizing catalytic processes in industrial applications.

Comparative Studies of Co/SBA‐15 Catalysts Synthesized with Different Silica Sources Including Coal Fly Ash for Fischer‐Tropsch Synthesis

  • Journal: ChemistrySelect
  • Date: March 20, 2023
  • DOI: 10.1002/slct.202204962
  • Contributors: Pavan K. Gupta, Vineet Kumar, Sudip Maity, Goutam Kishore Gupta, Sudipta Datta, Arvind Singh, Siddhartha Sengupta
  • Summary: This research investigates the performance of Co/SBA-15 catalysts synthesized from various silica sources, including coal fly ash, in Fischer-Tropsch synthesis. The study emphasizes the potential of using waste materials as silica sources for catalyst preparation, contributing to more sustainable catalytic processes.

Effect of Char Temperature on CO2 Gasification of High Ash Coal and Biomass

  • Journal: ChemistrySelect
  • Date: 2022
  • DOI: 10.1002/SLCT.202201551
  • WOSUID: WOS:000863629400001
  • Contributors: Neelam Kumari, Sudipta Datta, Gajanan Sahu, Pinaki Sarkar, Sujan Saha, Prakash D. Chavan, Vishal Chauhan, Pavan Kumar Gupta
  • Summary: This article examines the impact of char temperature on the CO2 gasification process of high ash coal and biomass. The findings provide insights into optimizing gasification conditions for improved efficiency and resource utilization in energy production.

Heterogeneous Nanocatalyst for Biodiesel Synthesis

  • Journal: ChemistrySelect
  • Date: 2022
  • DOI: 10.1002/SLCT.202201671
  • WOSUID: WOS:000828851400001
  • Contributors: Deshal Yadav, Sudipta Datta, Sujan Saha, Subhalaxmi Pradhan, Shweta Kumari, Pavan Kumar Gupta, Vishal Chauhan, Shiva Kumar Saw, Gajanan Sahu
  • Summary: This research focuses on the development of a heterogeneous nanocatalyst for biodiesel synthesis. The study highlights advancements in catalyst design and performance for efficient biodiesel production, addressing key challenges in sustainable fuel generation.

Research Timeline

Pavan Kumar Gupta’s research timeline illustrates a trajectory of increasing specialization and impact. Starting with foundational research during his B.Tech and M.Tech studies, his focus evolved towards advanced catalysis and sustainable processes during his PhD. Over the years, he has managed and participated in numerous research projects, contributing to significant advancements in chemical engineering. His timeline reflects a consistent commitment to addressing complex challenges in catalysis and resource utilization.

Collaborations and Projects

Gupta’s work involves extensive collaborations with national and international research institutions. His projects span diverse areas, including the development of catalysts for syngas conversion, utilization of coal fly ash, and quality monitoring in energy production. Notable collaborations include projects with CSIR-CIMFR and CMPDI Ranchi, where he has played key roles in various research initiatives. His collaborative efforts underscore his ability to work effectively across different teams and contribute to multidisciplinary research projects.

Strengths of the Best Researcher Award

  1. Innovative Research Contributions: Dr. Pavan Kumar Gupta’s work in heterogeneous catalysis and sustainable technologies, such as utilizing coal fly ash in catalytic processes and advancing CO2 methanation, demonstrates a strong commitment to innovation in the field. His contributions to enhancing catalytic performance and resource utilization have significant practical implications.
  2. High Citation Impact: With 162 citations across 154 documents, Gupta’s research has had a notable impact on the scientific community. His work is highly regarded and frequently referenced, reflecting its relevance and influence in advancing catalysis and chemical engineering.
  3. Diverse Research Topics: Gupta’s research spans various crucial areas, including syngas conversion, CO2 absorption, and the development of advanced catalytic materials. His ability to address multiple facets of chemical engineering showcases his broad expertise and adaptability.
  4. Recognition in Prestigious Journals: Gupta’s publications in high-impact journals such as ChemistrySelect and the Journal of Chemical Technology & Biotechnology underscore the quality and significance of his research. His ability to publish in top-tier journals highlights his position as a leading researcher in his field.
  5. Successful Utilization of Waste Materials: Gupta’s focus on utilizing coal fly ash and other waste materials for catalytic processes is a significant strength. This approach not only advances sustainable technologies but also addresses environmental challenges by repurposing waste materials.

Areas for Improvement

  1. Broader Research Scope: While Gupta’s research is highly specialized, expanding his focus to include emerging areas such as renewable energy technologies or advanced materials could further enhance the breadth and impact of his work.
  2. Collaborative Networks: Although Gupta has engaged in extensive collaborations, increasing partnerships with international research institutions and industry leaders could broaden the scope of his research and enhance its practical applications.
  3. Public Engagement and Outreach: Enhancing efforts in public science communication and outreach could help disseminate his research findings to a broader audience, including policymakers, industry professionals, and the general public.
  4. Research Funding: Securing additional funding for large-scale or interdisciplinary projects could support more ambitious research initiatives and enable the development of innovative solutions to complex problems in catalysis and sustainability.
  5. Diversification of Publication Venues: Expanding publication efforts to include interdisciplinary journals or those focusing on applied research could help reach new audiences and increase the practical impact of his findings.

Conclusion

Dr. Pavan Kumar Gupta’s recognition as the Best Researcher reflects his exceptional contributions to the field of chemical engineering, particularly in heterogeneous catalysis and sustainable technologies. His innovative research, high citation impact, and diverse publication record underscore his significant role in advancing scientific knowledge and practical applications. While there are opportunities for further growth, such as expanding research scope and increasing public engagement, Gupta’s achievements highlight his dedication and expertise. His work continues to drive advancements in catalysis and resource utilization, reinforcing his position as a leading researcher in his field.

Mine Ilk Capar | Surface Physics | Best Researcher Award

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Assoc Prof Dr. Mine Ilk Capar | Surface Physics | Best Researcher Award

Associate Professor at Ege University, Turkey

Doç. Dr. Emine Mine Çapar is a prominent researcher in the field of atomic and molecular physics, associated with Ege University’s Faculty of Science. Her expertise centers on liquid crystals and molecular dynamics simulations. Her academic journey and research contributions reflect a deep understanding of the structural and dynamic behaviors of physical systems at the molecular level.

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ORCID Profile

Google Scholar Profile

Dr. Çapar’s research impact is evidenced by her scholarly metrics, including 11 publications listed in Web of Science and 19 in Unisis. She has accumulated 94 citations according to Web of Science and 92 according to Unisis, with an average of 8.55 and 4.84 citations per publication, respectively. Her h-index stands at 4 in both databases, showcasing a consistent contribution to her field.

Education

Dr. Çapar’s educational background is rooted in physics. She completed her doctorate at Ege University in 2004, focusing on molecular dynamics of liquid crystal homologs. Her Master’s degree, also from Ege University, was awarded in 1998, investigating phase transition temperatures in cyanobiphenyl homologs. She obtained her Bachelor’s degree in Physics from the same institution in 1993.

Research Focus

Dr. Çapar’s research is primarily in the realms of atomic and molecular physics, with a particular focus on liquid crystals and their dynamic properties. Her work involves using molecular dynamics simulations to explore the behavior of molecules in various conditions, aiming to advance the understanding of these complex systems.

Professional Journey

Dr. Çapar’s academic career includes serving as an Assistant Professor at Ege University since 2009. Previously, she was an Instructor at Dokuz Eylül University from 2004 to 2009 and worked as a Research Assistant at both Dokuz Eylül University and Afyon Kocatepe University from 1993 to 2004.

Honors & Awards

Dr. Çapar has been recognized through several funded research projects, including TÜBİTAK-supported studies on gold nanoparticles and liquid crystals. These projects highlight her significant contributions to advancing scientific knowledge in her field.

Publications Noted & Contributions

Dr. Çapar has published extensively in prestigious journals such as the Journal of Molecular Liquids and the Journal of Physical Chemistry B. Her work has made substantial contributions to the fields of molecular dynamics and liquid crystal research, reflecting her expertise and influence in these areas.

Water/Organic Liquid Interface Properties with Amine, Carboxyl, Thiol, and Methyl Terminal Groups as Seen from MD Simulations

Journal: Journal of Computational Chemistry
Publication Date: December 5, 2023
DOI: 10.1002/jcc.27205
ISSN: 0192-8651, 1096-987X
Contributors: M. Ilk Capar, A. Cetin, Alex Zakharov
Summary: This article explores the interface properties of water and organic liquids with different terminal groups—amine, carboxyl, thiol, and methyl—using molecular dynamics (MD) simulations. The study aims to understand how these functional groups influence the behavior and interactions at the liquid interfaces.

Functional-Group Effect of Ligand Molecules on the Aggregation of Gold Nanoparticles: A Molecular Dynamics Simulation Study

Journal: The Journal of Physical Chemistry B
Publication Date: July 28, 2022
DOI: 10.1021/acs.jpcb.2c01132
ISSN: 1520-6106, 1520-5207
Contributors: Mine Capar, Ayse Cetin, Mine Ilk Capar
Summary: This study investigates how different ligand molecules affect the aggregation of gold nanoparticles through molecular dynamics simulations. The research focuses on understanding the influence of various functional groups on the stability and behavior of nanoparticle systems.

Miscibility and Diffusivity of Water in Organic Acids: Molecular Dynamics Simulations

Journal: Journal of Molecular Liquids
Publication Date: 2019
DOI: 10.1016/j.molliq.2019.111630
EID: 2-s2.0-85071759259
ISSN: 0167-7322
Contributors: A. Kafali, M.I. Capar, A.V. Zakharov
Summary: This research employs molecular dynamics simulations to study the miscibility and diffusivity of water in various organic acids. The study aims to elucidate the interactions and transport properties of water in acidic environments.

Comparison of Structural Properties of Some Liquid Crystals

Journal: Turkish Journal of Physics
Publication Date: 2017
DOI: 10.3906/fiz-1610-6
ISSN: 1303-6122, 1300-0101
Contributors: E.M. Çapar
Summary: This paper presents a comparison of the structural properties of various liquid crystals. The study highlights differences in molecular arrangements and physical properties among different liquid crystal compounds.

Molecular Structure and Elastic Properties of Thermotropic Liquid Crystals: Integrated Molecular Dynamics – Statistical Mechanical Theory vs Molecular Field Approach

Journal: Journal of Chemical Physics
Publication Date: 2013
DOI: 10.1063/1.4794920
ISSN: 0021-9606
Contributors: M.I. Capar, A. Nar, A. Ferrarini, E. Frezza, C. Greco, A.V. Zakharov, A.A. Vakulenko
Summary: This article compares molecular dynamics simulations with statistical mechanical theory and molecular field approaches to study the molecular structure and elastic properties of thermotropic liquid crystals. The aim is to understand the different theoretical models’ effectiveness in describing liquid crystal behavior.

Research Timeline

Dr. Çapar’s research trajectory includes significant milestones such as the completion of her PhD in 2004, followed by impactful publications on liquid crystal properties and molecular dynamics simulations in 2011 and beyond. Her recent work continues to advance understanding in these areas, with ongoing research published in 2023.

Strengths of Dr. Emine Mine Çapar

  1. High Expertise in Molecular Dynamics and Liquid Crystals: Dr. Çapar has established a solid reputation in her field with a focus on molecular dynamics simulations and liquid crystal research. Her detailed studies on molecular behavior and interactions at the microscopic level have contributed significantly to advancing understanding in these areas.
  2. Consistent Research Output: Her consistent publication record across notable journals like the Journal of Molecular Liquids and the Journal of Physical Chemistry B demonstrates a sustained commitment to research. The variety of topics covered, from functional-group effects on nanoparticle aggregation to water/organic liquid interface properties, highlights her broad expertise.
  3. Recognition and Funding: The acknowledgment through the Best Researcher Award and funding from TÜBİTAK for projects related to gold nanoparticles and liquid crystals reflect her high standing in the scientific community. Such recognition emphasizes the impact and quality of her research.
  4. Strong Educational Foundation: Dr. Çapar’s educational background in physics from Ege University, including a PhD focusing on molecular dynamics of liquid crystal homologs, provides a robust foundation for her research. This deep understanding of theoretical and practical aspects enhances the quality of her work.
  5. Research Contributions and Collaboration: Her collaborations with other researchers and contributions to high-impact publications illustrate her ability to work effectively in a team and contribute valuable insights to complex research problems.

Areas for Improvement

  1. Citation Impact and H-Index: Although her h-index of 4 in both Web of Science and Unisis indicates a solid impact, increasing her citation metrics could further establish her work’s influence. Strategies could include enhancing the visibility of her research through targeted outreach or engaging with more prominent conferences and forums.
  2. Broader Interdisciplinary Collaboration: Expanding her research to include interdisciplinary approaches could provide new insights and applications. Collaborating with experts in related fields, such as materials science or nanotechnology, might yield innovative results and broaden her research impact.
  3. Enhanced Public Engagement: Increasing efforts to communicate her research findings to a broader audience, including through popular science channels or media, could raise awareness and interest in her work. This might also attract more attention from potential collaborators or funders.
  4. Grant Acquisition and Research Funding: While Dr. Çapar has received funding from TÜBİTAK, seeking additional grants from international funding bodies or private sector partnerships could provide more resources for her research, facilitating larger or more complex studies.
  5. Research Diversity: Introducing new research themes or exploring emerging trends in her field could diversify her research portfolio. Engaging in novel areas, such as quantum computing or artificial intelligence applications in molecular simulations, could open up new avenues for exploration.

Conclusion

Dr. Emine Mine Çapar is a distinguished researcher with a significant track record in molecular dynamics and liquid crystal research. Her solid educational background, consistent research output, and recognition through awards and funding highlight her contributions to the field. However, there are opportunities for growth in areas such as increasing citation impact, enhancing interdisciplinary collaboration, and broadening research diversity. By addressing these areas, Dr. Çapar can further amplify her influence and continue to make impactful contributions to science.

Zain Ul Abideen | Catalysis | Best Researcher Award

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Dr. Zain Ul Abideen | Catalysis | Best Researcher Award

Doctorate at Central South University, China

Dr. ZainUl Abideen is a post-doctoral research fellow at Central South University, China, specializing in materials chemistry, environmental chemistry, and electro-catalysis. With a PhD in Environmental Science and Engineering from Nanjing University of Information Science and Technology, his research focuses on synthesizing semiconductor nanomaterials through various methods such as solid-state, co-precipitation, and hydrothermal techniques. His work aims to advance green energy production and environmental remediation by enhancing photocatalytic and electrocatalytic processes. He has a strong background in water management, supported by both master’s and bachelor’s degrees in the field from The University of Agriculture Peshawar, Pakistan.

Author Metrics

Google Scholar Profile

ORCID Profile

Dr. ZainUl Abideen’s author metrics reflect his substantial impact and contributions to the field of materials chemistry and environmental science.

  • Citations: Dr. Abideen has accumulated 435 citations on Google Scholar and 429 on ResearchGate. These citations indicate the influence and relevance of his research in the scientific community, showcasing how his work has been recognized and referenced by other researchers.
  • h-index: His h-index stands at 14 on Google Scholar and 13 on ResearchGate. The h-index measures both the productivity and citation impact of his publications. An h-index of 14 means that he has at least 14 publications that have each been cited at least 14 times, highlighting his consistent contributions to impactful research.
  • i10-index: Dr. Abideen has an i10-index of 15 on both Google Scholar and ResearchGate. This index indicates the number of his publications that have received at least 10 citations each, further emphasizing the breadth and recognition of his research contributions.

These metrics collectively reflect Dr. Abideen’s successful and influential career in research, underscoring the significant impact of his work in his field.

Education

Dr. Abideen holds a PhD in Environmental Science and Engineering from Nanjing University of Information Science and Technology, China, where his thesis focused on the effects of alkaline treatment on ZnS and Zn0.3Cd0.7S solid solution photochemical activities. He also earned a Master’s degree in Water Management from The University of Agriculture Peshawar, Pakistan, with a thesis on crop water productivity. His academic foundation is further supported by a Bachelor’s degree in Water Management from the same institution. This educational background provides him with a robust understanding of both environmental science and water management.

Research Focus

Dr. Abideen’s research is centered on the synthesis and application of semiconductor nanomaterials for electro-photocatalysis. His work involves exploring solid-state, co-precipitation, and hydrothermal methods to develop materials for hydrogen and oxygen evolution reactions. His focus extends to green energy production, energy storage, and environmental remediation, aiming to create efficient and sustainable solutions for energy and environmental challenges. Recent projects involve advanced electrocatalysts for hydrogen and oxygen evolution reactions, which are crucial for renewable energy technologies.

Professional Journey

Dr. Abideen’s professional journey includes roles as a post-doctoral research fellow at Central South University, China, where he focuses on advanced materials for electrocatalysis. Prior to this, he completed a PhD at Nanjing University of Information Science and Technology, China, where he investigated photocatalytic materials. His career began with academic roles and research positions in Pakistan, where he also supervised graduate students. His international experience and academic positions highlight his dedication to advancing research in materials chemistry and environmental science.

Honors & Awards

Dr. Abideen has received several honors recognizing his academic excellence and research contributions. He was awarded the Best Thesis Award and the Award of Outstanding International Graduate from Nanjing University of Information Science and Technology in 2019. Additionally, he was a recipient of the Chinese Government Scholarship during his doctoral studies, which supported his research and academic pursuits. These accolades reflect his significant achievements and impact in his field of study.

Publications Noted & Contributions

Dr. Abideen has published numerous influential papers in reputable journals, contributing to the fields of materials chemistry and environmental science. Notable publications include articles on the photocatalytic activity of semiconductor materials and advancements in electrochemical properties. His research on materials like CeO2@Zn0.5Cd0.5S and Fe2O3@Zn0.3Cd0.7S highlights his work in enhancing photocatalytic and electrochemical processes. These contributions underscore his role in advancing knowledge and technology in his research areas.

One-Step Hydrothermal Synthesis of ZnO Microtubes with Efficient Photocatalytic Activity

  • Journal: Micro & Nano Letters
  • Publication Date: December 29, 2020
  • DOI: 10.1049/mna2.12024
  • ISSN: 1750-0443
  • Summary: This study presents a one-step hydrothermal method to synthesize ZnO microtubes, which exhibit high photocatalytic activity. The work demonstrates the effectiveness of this approach in creating nanostructures with enhanced photocatalytic properties, suitable for various environmental applications.

Fe2O3-Promoted Interface Charge Separation and Visible-Light Activity of Fe2O3@Zn0.3Cd0.7S

  • Journal: Materials Chemistry and Physics
  • Publication Date: May 2020
  • DOI: 10.1016/j.matchemphys.2020.122811
  • ISSN: 0254-0584
  • Summary: This article explores the role of Fe2O3 in enhancing the interface charge separation and visible-light photocatalytic activity of Fe2O3@Zn0.3Cd0.7S. The study provides insights into how Fe2O3 can promote effective charge transfer and improve the photocatalytic performance of composite materials.

Enhanced Visible Light Photocatalytic Activity of CeO2@Zn0.5Cd0.5S by Facile Ce(IV)/Ce(III) Cycle

  • Journal: Arabian Journal of Chemistry
  • Publication Date: February 2020
  • DOI: 10.1016/j.arabjc.2019.06.013
  • ISSN: 1878-5352
  • Summary: This publication details the improvement of visible light photocatalytic activity in CeO2@Zn0.5Cd0.5S through a simple Ce(IV)/Ce(III) redox cycle. The study highlights the effectiveness of this method in enhancing photocatalytic performance under visible light, which has implications for environmental remediation and energy conversion.

Hydrological Appraisal of Rainfall Estimates from Radar, Satellite, Raingauge, and Satellite–Gauge Combination on the Qinhuai River Basin, China

  • Journal: Hydrological Sciences Journal
  • Publication Date: December 10, 2019
  • DOI: 10.1080/02626667.2018.1557335
  • ISSN: 0262-6667, 2150-3435
  • Summary: This study assesses the accuracy of various rainfall estimation methods, including radar, satellite, and raingauge measurements, in the Qinhuai River Basin, China. It provides valuable insights into the effectiveness of different estimation techniques and their combined use for hydrological studies.

Highly Uniform MnCo2O4 Hollow Spheres-Based All-Solid-State Asymmetric Micro-Supercapacitor via a Simple Metal-Glycerate Precursor Approach

  • Journal: Energy Technology
  • Publication Date: September 2019
  • DOI: 10.1002/ente.201900314
  • ISSN: 2194-4288, 2194-4296
  • Summary: This publication describes the synthesis of highly uniform MnCo2O4 hollow spheres and their application in an all-solid-state asymmetric micro-supercapacitor. The research demonstrates a straightforward precursor approach and the potential for high-performance energy storage devices.

Research Timeline

Dr. Abideen’s research timeline spans from his early studies in water management to his current focus on semiconductor nanomaterials. His doctoral research on photocatalytic materials laid the foundation for his subsequent work in materials chemistry. His post-doctoral research at Central South University involves developing advanced electrocatalysts for renewable energy applications. This timeline illustrates his progression from foundational studies to cutting-edge research in energy and environmental technologies.

Strengths of Dr. Zain Ul Abideen’s Research

  1. Innovative Research Contributions: Dr. Abideen has significantly advanced the field of materials chemistry and environmental science through innovative research. His work on synthesizing semiconductor nanomaterials and enhancing their photocatalytic and electrocatalytic properties demonstrates a high level of creativity and technical expertise.
  2. High Citation Impact: With 435 citations on Google Scholar and 429 on ResearchGate, Dr. Abideen’s research has made a substantial impact in his field. His h-index of 14 and i10-index of 15 further emphasize the influence and reach of his publications, highlighting the recognition his work has received from the scientific community.
  3. Focused Research on Green Energy and Environmental Remediation: Dr. Abideen’s research is centered on critical global challenges, including green energy production and environmental remediation. His work on photocatalytic and electrocatalytic processes aligns well with the current needs for sustainable solutions, making his research highly relevant and impactful.
  4. Strong Academic Background and Awards: His educational background in environmental science and water management, combined with awards such as the Best Thesis Award and the Award of Outstanding International Graduate, reflects a solid academic foundation and recognition of his excellence in research.
  5. Diverse and High-Quality Publications: Dr. Abideen has published influential papers in reputable journals, covering various aspects of materials chemistry and environmental science. Notable publications include research on photocatalytic activity and electrochemical properties, showcasing the breadth and depth of his expertise.

Areas for Improvement

  1. Broadening Research Horizons: While Dr. Abideen’s focus on semiconductor nanomaterials and photocatalytic processes is strong, expanding his research to include other emerging areas such as nanomedicine or advanced materials for electronic applications could further enhance his research impact and applicability.
  2. Increasing Collaboration with Industry: Strengthening collaborations with industry partners could facilitate the translation of his research into practical applications and commercialization. Engaging with industrial stakeholders may also provide additional resources and perspectives that could benefit his research.
  3. Diversifying Research Methodologies: Incorporating a broader range of research methodologies, including computational modeling or machine learning approaches, could complement his experimental work and provide new insights into the behavior and optimization of materials.
  4. Enhancing Public Engagement: Increasing efforts to communicate his research findings to a broader audience, including the general public and policymakers, could enhance the societal impact of his work. Public engagement can help raise awareness of the importance of his research and its potential benefits.
  5. Expanding Geographical and Cultural Scope: Expanding his research to address environmental and energy challenges in different geographical and cultural contexts could increase the global relevance of his work. This could involve collaborations with researchers and institutions in various regions to address region-specific issues.

Conclusion

Dr. Zain Ul Abideen is a distinguished researcher whose contributions to materials chemistry and environmental science are noteworthy. His innovative approach to synthesizing semiconductor nanomaterials and advancing photocatalytic and electrocatalytic processes highlights his expertise and commitment to addressing critical global challenges. His high citation impact and recognition through awards further underscore the significance of his work.

However, to build upon his already impressive career, Dr. Abideen could consider broadening his research scope, strengthening industry collaborations, diversifying methodologies, enhancing public engagement, and expanding his research to different geographical and cultural contexts. These improvements could amplify the impact of his research and contribute to solving a wider range of environmental and energy challenges.

Hui Zhao | Marine Science | Best Researcher Award

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Prof. Hui Zhao | Marine Science | Best Researcher Award

Professor at Guangdong Ocean University, China

Hui Zhao, Ph.D., is a prominent marine scientist and professor at Guangdong Ocean University, where he also serves as the Dean of the College of Chemistry and Environment. He is recognized as a Distinguished Scholar in the South China Sea and leads research in marine chemistry. His involvement in academic and research networks spans multiple prestigious institutions, including the Bermuda Institute of Ocean Sciences and the University of Hawaii.

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  • Citations: 1,288 citations across 1,002 documents.
  • Documents: 71 publications.
  • H-Index: 18, reflecting his significant impact in his field.

Hui Zhao boasts an H-Index of 23, according to Web of Science, which highlights his significant impact and citation influence in his field. His extensive research contributions are reflected in 189 published journal articles.

Education

Hui Zhao’s academic journey is marked by advanced studies and research, culminating in a Ph.D. His expertise is demonstrated through his leadership roles and contributions to marine science and environmental research.

Research Focus

Professor Zhao’s research primarily explores marine biogeochemical processes, environmental geochemistry, ecological restoration, and the dynamics of marine ecosystems. His work addresses both natural and anthropogenic impacts on marine environments, especially in the South China Sea.

Professional Journey

Throughout his career, Hui Zhao has held various influential positions, including serving as a member of the Teaching Guidance Committee for Environmental Science Programs and a guest researcher at notable research institutions. His professional journey is characterized by significant academic leadership and research contributions.

Honors & Awards

Hui Zhao’s recognition includes his roles as a Distinguished Scholar and leader in marine chemistry. He has also been awarded funding and support for numerous research projects from national and provincial research foundations.

Publications Noted & Contributions

Professor Zhao has contributed to 189 journal articles and has an H-Index of 23, demonstrating his research’s wide impact. His work includes leading several major projects and initiatives, such as the National Natural Science Foundation of China projects and various provincial research endeavors.

Nitrogen fixation of different seasons and parts of seagrass Enhalus acoroides in Xincun Bay, northern South China Sea

  • Authors: Wu, Z.-Z., Li, X.-M., Zhao, H., Dong, J.-D., Wu, M.-L.
  • Journal: Regional Studies in Marine Science
  • Year: 2024
  • Volume: 76
  • Article Number: 103599
  • Citations: 0

Regulation of winter river input on the nutrient structure of typical tropical bays around Leizhou Peninsula, South China

  • Authors: Zheng, Q., Pan, G., Zhao, H., Tian, K.
  • Journal: Ocean and Coastal Management
  • Year: 2024
  • Volume: 256
  • Article Number: 107272
  • Citations: 0

Research on the characteristics of nitrate electroreduction by 3D self-supported cobalt-based sulfide electrode

  • Authors: Xiao, X., Luo, Z., He, W., Sun, D., Pan, G.
  • Journal: Huanjing Kexue Xuebao/Acta Scientiae Circumstantiae
  • Year: 2024
  • Volume: 44(5)
  • Pages: 92–101
  • Citations: 0

Distribution Characteristics and Pollution Sources Analysis of Polycyclic Aromatic Hydrocarbons and Phthalate Esters in the Seawater of Land-Based Outlets around Zhanjiang Bay in Spring

  • Authors: Wang, Z., Zhao, H., Zhao, L.
  • Journal: Water (Switzerland)
  • Year: 2024
  • Volume: 16(7)
  • Article Number: 948
  • Citations: 0

Vertical and horizontal variations in phytoplankton chlorophyll a in response to a looping super typhoon

  • Authors: Chen, Y., Zhao, H., Han, G.
  • Journal: Limnology and Oceanography
  • Year: 2024
  • Status: Article in Press
  • Citations: 0

Research Timeline

Hui Zhao’s research trajectory includes completing 14 projects and actively working on 1 ongoing project. His involvement in these projects underscores his ongoing commitment to advancing marine science and addressing environmental challenges.

Strengths of the Best Researcher Award for Prof. Hui Zhao

  1. Significant Research Impact: Prof. Hui Zhao’s research is highly impactful, evidenced by his H-Index of 23 according to Web of Science and 1,288 citations on Scopus. This indicates that his work is well-regarded and frequently cited by peers in the marine science community.
  2. Diverse and Relevant Research Focus: His research spans critical areas such as marine biogeochemical processes, environmental geochemistry, and ecological restoration. This diversity reflects his comprehensive understanding of marine science and addresses both natural and human-induced impacts on marine ecosystems.
  3. Leadership and Institutional Affiliation: As a professor and Dean at Guangdong Ocean University, and a member of influential committees, Prof. Zhao demonstrates leadership in marine science education and research. His role in prestigious institutions further amplifies his impact and network.
  4. High Number of Publications: With 189 journal articles to his name, Prof. Zhao has a prolific publication record. This extensive output underlines his active contribution to advancing marine science knowledge.
  5. Ongoing Research Projects: Prof. Zhao’s involvement in numerous completed projects and an ongoing project highlights his continuous engagement in research and commitment to addressing current environmental challenges.

Areas for Improvement

  1. Citation Metrics: While Prof. Zhao has a commendable number of citations, some of his recent publications have not yet garnered citations. Continued promotion and dissemination of his recent work could enhance its visibility and impact.
  2. Interdisciplinary Collaboration: Expanding collaborations across different scientific disciplines could provide new perspectives and methodologies, potentially enhancing the depth and scope of his research findings.
  3. Funding and Grants: While Prof. Zhao has received funding from national and provincial foundations, seeking additional international grants could support more extensive and innovative research projects.
  4. Public Engagement: Increasing public engagement through outreach programs, science communication, and public lectures could raise awareness of his research and its implications, benefiting both the scientific community and society.
  5. Mentoring and Training: Investing in the mentoring of early-career researchers and students could help nurture the next generation of marine scientists, fostering growth in the field and extending his academic influence.

Conclusion

Prof. Hui Zhao is a distinguished marine scientist with a notable impact on his field, demonstrated by his extensive publication record and significant citation metrics. His leadership roles and ongoing research activities underscore his dedication to advancing marine science. To further enhance his influence and effectiveness, focusing on increasing the citation of recent works, fostering interdisciplinary collaborations, securing additional funding, engaging with the public, and mentoring future scientists could be beneficial. These efforts would not only solidify his position as a leading researcher but also contribute to the broader impact of his work on marine science and environmental conservation.

Moncef Chouaibi | Food Engineering | Best Researcher Award

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Prof. Moncef Chouaibi | Food Engineering | Best Researcher Award

 Professor at Higher School of Food Industries of Tunis, Tunisia

Moncef Chouaibi is a Professor in the Department of Food Engineering at the Higher School of Food Industries of Tunisia, University of Carthage. He has extensive experience in academia and research within the field of food engineering. His expertise encompasses a range of food science and technology topics, reflecting his contributions to both teaching and research in this field.

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Dr. Chouaibi’s scholarly impact is evident through his published research articles in reputable journals. His work covers a wide range of topics within food science and technology, highlighting his contributions to the academic community and his role in advancing knowledge in food engineering.

Education

Dr. Chouaibi’s educational background includes a Doctorate in Food Industries obtained from the University of Salerno, Italy, and University of Carthage in 2013. He also holds a Master’s degree in Food Industries from the University of Bordeaux, France, and University of Carthage, completed in 2007. Additionally, he has an Engineering degree in Food Industries from the University of Carthage and a preparatory cycle from the University of Monastir, Tunisia.

Research Focus

Dr. Chouaibi’s research focus is diverse, covering various aspects of food engineering. His interests include the rheological and thermal properties of foods, enzyme kinetics, and food stability. He also explores food chemistry, cereal technology, and fermented milk products, making significant contributions to these areas of study.

Professional Journey

Dr. Chouaibi’s professional journey includes roles as a Senior Research Fellow at both the University of Salerno and University of Carthage, and as an Assistant Professor at the University of Carthage since 2021. His career has been marked by his involvement in research and teaching across different institutions, reflecting his dedication to the field of food engineering.

Honors & Awards

The provided summary does not specify any particular honors or awards received by Dr. Chouaibi. His recognition and achievements in his field are not detailed in the available information.

Publications Noted & Contributions

Dr. Chouaibi has authored several notable publications in peer-reviewed journals, focusing on various aspects of food science and technology. His research includes studies on nanoncapsulation, yogurt fortification, and the impact of agricultural practices on food quality, showcasing his contributions to advancing the field.

Arbutus unedo Fruit Syrup as a Fortifying Agent: Effect on Physicochemical, Microbiological, Rheological, Sensory, and Antioxidant Properties of Yoghurt

Journal: Journal of Food Science and Technology
Year: 2023
DOI: 10.1007/s13197-023-05801-4
EID: 2-s2.0-85166961352
ISSN: 09758402, 00221155

This study investigates the impact of Arbutus unedo fruit syrup as a fortifying agent in yogurt. The research evaluates how the syrup affects the yogurt’s physicochemical, microbiological, rheological, sensory, and antioxidant properties. The results provide insights into how natural fruit syrups can enhance the quality and health benefits of dairy products.

Bioactive Phytochemicals from Pumpkin Seed Oil Processing By-products

Book Chapter: Reference Series in Phytochemistry
Year: 2023
DOI: 10.1007/978-3-030-91381-6_15
EID: 2-s2.0-85151258926
ISSN: 25118358, 2511834X

This book chapter focuses on the bioactive phytochemicals derived from pumpkin seed oil processing by-products. It explores the potential health benefits and applications of these phytochemicals, highlighting their significance in the field of phytochemistry.

Influence of Conservation Agriculture on Durum Wheat Grain, Dough Texture Profile and Pasta Quality in a Mediterranean Region

Journal: Agriculture (Switzerland)
Year: 2023
DOI: 10.3390/agriculture13040908
EID: 2-s2.0-85153745660
ISSN: 20770472

This article examines how conservation agriculture practices affect durum wheat grain characteristics, dough texture, and pasta quality. The study provides valuable information on how agricultural methods impact the quality of wheat-based products in Mediterranean regions.

Nanoncapsulation of Tyrosol Using Natural Biopolymers: Optimization, Characterization, and Physical Stability of Nanoparticles

Journal: Journal of Food Measurement and Characterization
Year: 2023
DOI: 10.1007/s11694-023-02280-1
EID: 2-s2.0-85180169991
ISSN: 21934134, 21934126

This paper presents research on the nanoncapsulation of tyrosol using natural biopolymers. It details the optimization, characterization, and physical stability of the resulting nanoparticles, contributing to the field of food nanotechnology and its applications.

Clove Essential Oil Nanoemulsion: Optimization Using Artificial Neural Network

Book Chapter: Clove (Syzygium Aromaticum)
Year: 2022
DOI: 10.1016/b978-0-323-85177-0.00002-1

This book chapter discusses the optimization of clove essential oil nanoemulsion using artificial neural networks. It explores advanced methods for enhancing the stability and effectiveness of essential oil nanoemulsions in various applications.

Research Timeline

Dr. Chouaibi’s research timeline spans over two decades, with ongoing contributions to food science and engineering. His recent work continues to address current challenges and innovations in food processing, stability, and technology.

Strengths of Dr. Moncef Chouaibi’s Research and Recognition

  1. Diverse Research Focus: Dr. Chouaibi’s research spans multiple areas within food engineering, including rheological and thermal properties, enzyme kinetics, food stability, cereal technology, and fermented milk products. This breadth highlights his comprehensive expertise and adaptability in tackling various challenges in food science.
  2. Innovative Contributions: His work on nanoncapsulation and the optimization of clove essential oil nanoemulsion showcases his involvement in cutting-edge technologies. These studies contribute significantly to advancing food nanotechnology and enhancing the effectiveness of essential oils.
  3. Practical Applications: Research such as the impact of Arbutus unedo fruit syrup on yogurt and the influence of conservation agriculture on durum wheat quality reflects Dr. Chouaibi’s focus on practical, real-world applications. This approach ensures that his findings have tangible benefits for food quality and agricultural practices.
  4. Peer-Reviewed Publications: Dr. Chouaibi has published in reputable journals and contributed to book chapters, demonstrating his active engagement with the academic community. His research is widely accessible and contributes to ongoing scholarly discourse in food engineering.
  5. Recognition of Expertise: Receiving the Best Researcher Award signifies recognition of his significant contributions to the field. This award reflects the impact and quality of his research, validating his role as a leading researcher in food engineering.

Areas for Improvement

  1. Expanded Research on Emerging Topics: While Dr. Chouaibi’s research is comprehensive, exploring emerging topics like sustainable food systems, plant-based food innovations, or the impact of climate change on food quality could further enhance his contributions to contemporary issues in food science.
  2. Interdisciplinary Collaboration: Increasing collaboration with researchers from other fields, such as environmental science or nutrition, could lead to more holistic approaches to food engineering problems and foster innovative solutions through interdisciplinary research.
  3. Public Engagement and Outreach: Enhancing efforts in public engagement and outreach could help bridge the gap between academic research and practical applications. This could involve participating in industry conferences, public lectures, or community workshops to share findings and their implications more broadly.
  4. Focus on Underrepresented Areas: Investigating less explored areas within food engineering, such as food waste management or alternative protein sources, could diversify Dr. Chouaibi’s research portfolio and address pressing global challenges in the food sector.
  5. Research Dissemination: While Dr. Chouaibi has published extensively, increasing the dissemination of his research through platforms like open-access journals or multimedia content could enhance the visibility and accessibility of his findings to a wider audience.

Conclusion

Dr. Moncef Chouaibi’s extensive research in food engineering reflects his deep expertise and innovative contributions to the field. His diverse focus, practical applications, and recognition through the Best Researcher Award underscore his significant impact. To further enhance his research impact, expanding into emerging topics, fostering interdisciplinary collaboration, and improving public outreach and research dissemination could provide additional avenues for growth and influence. Overall, Dr. Chouaibi’s work stands out for its relevance and quality, affirming his role as a leading figure in food engineering.

Shashi Prakash Dwivedi | Material Science | Physical Chemistry Award

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Dr. Shashi Prakash Dwivedi | Material Science | Physical Chemistry Award

Doctorate at Lloyd Institute of Engineering and Technology, India

Dr. S. P. Dwivedi is an esteemed academic and researcher in the field of materials science and engineering. He currently serves as the Professor and Dean (R & D) at the Lloyd Institute of Engineering and Technology in Greater Noida, India. With over 17 years of experience in research and academia, Dr. Dwivedi has made significant contributions to the field, particularly in the areas of material science, metallurgy, and composite materials. His extensive research and administrative roles have earned him recognition as one of the top 2% researchers globally by Stanford University, as well as several prestigious awards and honors.

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Dr. Shashi Prakash Dwivedi is a prominent academic affiliated with the Lloyd Institute of Engineering & Technology in Greater Noida, India. With a strong research portfolio, his work has garnered significant recognition, evidenced by 3,059 citations across 1,583 documents. His scholarly contributions are reflected in his h-index of 30, indicating a notable level of impact in his field

  • Citations: 3,059 citations across 1,583 documents
  • Documents: 239
  • h-index: 30

Education

Dr. Dwivedi holds a Ph.D. in Mechanical Engineering, which he earned from a renowned institution. His educational background has provided a strong foundation for his research career, allowing him to explore and contribute to various facets of material science and engineering. His advanced studies have been instrumental in his ability to lead innovative research and guide students and colleagues in their academic pursuits.

Research Focus

Dr. Dwivedi’s research primarily revolves around material science, specifically focusing on metal matrix composites, green materials, and advanced manufacturing processes. His work includes the development and characterization of composite materials using waste products, the optimization of manufacturing parameters, and the application of novel techniques in material processing. His research aims to enhance the performance and sustainability of materials used in various industrial applications.

Professional Journey

Dr. Dwivedi’s professional journey spans over two decades, during which he has held various influential positions in academia. He began his career as a lecturer and gradually progressed to more senior roles, including Head of Research and Development and Dean of R&D. His tenure at institutions such as G. L. Bajaj Institute of Technology and Management and Noida Institute of Engineering and Technology has been marked by significant contributions to research output, institutional growth, and academic leadership.

Honors & Awards

Dr. Dwivedi has received numerous accolades for his research and teaching excellence. Notably, he has been recognized as a Top 2% Researcher globally by Stanford University in 2021, 2022, and 2023. He has also been honored with the Best Paper Award (Gold Medal) by the Institution of Engineers (India) in 2023 and the Best Teacher Award by Dr. A.P.J. Abdul Kalam Technical University in 2020. These awards underscore his exceptional contributions to research and education.

Publications Noted & Contributions

Dr. Dwivedi has authored over 200 research papers in SCI/SCOPUS indexed journals, making significant contributions to the fields of material science and engineering. His notable publications include studies on the synthesis and characterization of green metal matrix composites, the effects of process parameters on material properties, and advancements in composite material technology. His work has been widely cited and has influenced both academic research and industrial practices.

“An Investigation of Fatigue, Creep, and Dynamic Mechanical Behavior of Bio-Fiber-Reinforced PLA and Their Hybrid Biocomposites”

Authors: V Chaudhary, SP Dwivedi, PP Das, P Gupta, B Sharma

Journal: Biomass Conversion and Biorefinery

Summary: This study explores the mechanical properties of bio-fiber-reinforced polylactic acid (PLA) and hybrid biocomposites, specifically focusing on fatigue, creep, and dynamic mechanical behavior. It aims to understand how these materials perform under various stresses and conditions.

“Mechanical, Thermal, and Electrical Properties of 2D Nanomaterials for Advanced Applications”

Authors: S Radhakrishnan, PP Das, A Alam, SP Dwivedi, V Chaudhary

Journal: Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science

Summary: This paper reviews the properties of two-dimensional (2D) nanomaterials, including their mechanical, thermal, and electrical characteristics. It discusses their potential applications in advanced technology fields.

“Sawdust-Reinforced Glass Fiber Epoxy-Based Composite: Fabrication and Analysis of Mechanical Properties”

Authors: SS Chauhan, M Maurya, SP Dwivedi

Journal: Journal of The Institution of Engineers (India): Series D

Summary: The article describes the fabrication and mechanical analysis of a composite material made from sawdust-reinforced glass fiber and epoxy. It examines how the addition of sawdust affects the composite’s mechanical properties.

“Enhancing Mechanical and Thermal Properties of Polymer Matrix Nanocomposites through Tailored Nanomaterial Architectures”

Authors: SB Ingole, P Sharma, R Verma, S Chowdhury, PP Patil, SP Dwivedi, …

Journal: E3S Web of Conferences

Summary: This paper focuses on improving the mechanical and thermal properties of polymer matrix nanocomposites by using customized nanomaterial structures. The research highlights methods for tailoring nanomaterials to enhance composite performance.

“A Review Paper on Current State of the Worldwide Solar Energy Generation”

Authors: R Ahmed, GV Reddy, A Singla, P Maan, SP Dwivedi

Journal: E3S Web of Conferences

Summary: This review article provides an overview of global solar energy generation, including current technologies, trends, and challenges. It aims to give a comprehensive summary of the state of solar energy worldwide.

Research Timeline

Dr. Dwivedi’s research timeline includes pivotal projects and achievements across different phases of his career. Key milestones include his recent work on near netshape generation of nano composite parts, the enhancement of machining performance using biodielectric fluids, and ongoing projects involving the development of mechanized digital gnathodynamometers. His research has evolved to address emerging challenges in material science, reflecting his commitment to advancing the field.

Collaborations and Projects

Throughout his career, Dr. Dwivedi has engaged in various collaborations with national and international research organizations. He has secured funding from agencies such as AKTU, UP-CST, and DST for projects focused on sustainable materials and advanced manufacturing techniques. His collaborative efforts have led to significant research outcomes and the development of innovative solutions for industry-related problems.

Strengths of the Physical Chemistry Award

  1. Global Recognition: The Physical Chemistry Award highlights Dr. Dwivedi’s exceptional contributions to the field, underscoring his recognition as a top researcher. This acknowledgment from Stanford University as a top 2% researcher globally is a testament to his influence and standing in the field of materials science and physical chemistry.
  2. Significant Research Contributions: Dr. Dwivedi’s research on material science, especially in areas such as metal matrix composites and green materials, has had a profound impact. His work on bio-fiber-reinforced PLA, 2D nanomaterials, and sawdust-reinforced composites reflects innovative approaches and advancements in material properties and sustainability.
  3. Prestigious Awards and Honors: His receipt of notable awards such as the Best Paper Award (Gold Medal) and the Best Teacher Award emphasizes his dual excellence in research and education. These honors reflect his ability to balance high-quality research with impactful teaching.
  4. Diverse Research Focus: Dr. Dwivedi’s research encompasses a wide range of topics within material science and physical chemistry. His exploration of different material types, from biocomposites to nanomaterials, demonstrates a comprehensive understanding of the field and its applications.
  5. High Citation Metrics: With 3,059 citations across 1,583 documents and an h-index of 30, Dr. Dwivedi’s research has been highly influential and widely recognized by the academic community. This impact is indicative of the quality and relevance of his work in advancing the field.

Areas for Improvement

  1. Broaden Research Horizons: While Dr. Dwivedi’s work is extensive, exploring emerging areas such as quantum materials or nanophotonics might further enhance the breadth of his research contributions and address new scientific challenges.
  2. Increase Industry Collaboration: Strengthening partnerships with industry could help in translating research findings into practical applications, improving the commercial viability and impact of his work.
  3. Enhance Public Engagement: Greater efforts in communicating his research to the public through outreach programs, media, or popular science platforms could raise awareness of his contributions and inspire the next generation of researchers.
  4. Expand Educational Initiatives: Developing new educational resources, such as online courses or workshops, could extend his teaching impact beyond his immediate institution, benefiting a wider audience interested in material science and physical chemistry.
  5. Focus on Interdisciplinary Research: Collaborating with researchers from adjacent fields such as biology or environmental science could lead to innovative cross-disciplinary projects, addressing complex global challenges like climate change or health.

Conclusion

Dr. Shashi Prakash Dwivedi’s recognition through the Physical Chemistry Award highlights his significant contributions to material science and physical chemistry. His extensive research portfolio, prestigious awards, and high citation metrics reflect his substantial impact on the field. To further enhance his influence, focusing on emerging research areas, increasing industry and public engagement, and expanding educational and interdisciplinary efforts could provide new opportunities for growth and innovation. Dr. Dwivedi’s continued dedication to advancing material science promises to drive further breakthroughs and contributions to both academia and industry.