Yuliang Yuan | Chemistry | Best Researcher Award

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Assoc. Prof. Dr. Yuliang Yuan | Chemistry | Best Researcher Award

Assoc. Prof. at Hainan University, China

Dr. Yuliang Yuan is an Associate Professor at the School of Marine Science and Engineering at Hainan University in Haikou, China. He holds a Ph.D. in Materials Science and Engineering from Zhejiang University, where he specialized in materials chemistry and nanomaterials. His research career spans several high-impact institutions, having conducted postdoctoral research at Hunan University and been a visiting scholar at the University of Wisconsin-Madison. Dr. Yuan’s work is centered on the development of novel materials for energy applications, including electrocatalysts and nanomaterials. His research contributes significantly to fields such as water electrolysis, hydrogen production, and CO2 reduction. He has published extensively in renowned journals and collaborated with prominent researchers globally, making him a leading figure in the scientific community, especially in sustainable energy and materials chemistry.

Professional Profile

Education:

Dr. Yuliang Yuan earned his Ph.D. from the prestigious Zhejiang University, China, from 2012 to 2018, specializing in materials chemistry and nanomaterials. Under the guidance of Professor Jianguo Lu, his doctoral research focused on the synthesis and applications of advanced nanomaterials for energy-related processes. Prior to his Ph.D., he completed his Bachelor of Engineering in Materials Science and Chemistry at the China University of Geosciences, Wuhan, China, from 2008 to 2012. This strong educational foundation in materials science and engineering laid the groundwork for his extensive research into nanomaterials, catalysis, and electrochemical energy conversion technologies. His academic training equipped him with a deep understanding of both fundamental and applied research, positioning him as a leader in the field of materials chemistry and energy research.

Professional Experience:

Dr. Yuan’s professional journey began as a postdoctoral researcher at the College of Materials Science and Engineering, Hunan University, where he worked from 2019 to 2022. During this period, he focused on developing advanced materials for electrocatalytic applications in energy conversion, particularly for hydrogen production and CO2 reduction. His work on developing new electrocatalysts earned him recognition in the field of energy research. In addition to his postdoctoral work, Dr. Yuan served as a visiting scholar at the University of Wisconsin-Madison, collaborating with leading chemists on state-of-the-art nanomaterial synthesis and electrocatalysis research. Since 2022, he has held the position of Associate Professor at Hainan University’s School of Marine Science and Engineering, where he continues his research into nanomaterials, water electrolysis, and sustainable energy systems. His diverse professional experiences reflect his commitment to advancing the fields of materials science and energy.

Research Interests:

Dr. Yuan’s primary research interests lie in the controlled synthesis of nanocrystals and the development of advanced materials for energy conversion technologies. His work on electrocatalysis, particularly in the context of water electrolysis for hydrogen production, positions him at the forefront of renewable energy research. He is also dedicated to advancing the understanding of CO2 electroreduction and the design of efficient nanomaterial-based electrocatalysts. His work explores the rational design and synthesis of nanomaterials with tailored properties to improve the performance of electrocatalysts for energy storage and conversion applications. Dr. Yuan’s innovative approach aims to bridge the gap between fundamental materials research and practical energy solutions, contributing to the global transition toward clean energy. His research also extends to nanomaterial design for sustainable environmental applications, making a significant impact on green technologies and energy efficiency.

Awards and Honors:

Dr. Yuan has received several notable awards and honors for his research contributions. His work on nanomaterials and energy applications has earned him recognition from leading scientific communities, and his publications have garnered significant attention in high-impact journals. Although specific awards are not detailed, his academic excellence is reflected in his rapid academic progression from postdoctoral researcher to Associate Professor. He has been invited to collaborate with top researchers worldwide, further cementing his reputation as a leader in his field. His success in publishing groundbreaking research on electrocatalysis and nanomaterials has also led to his recognition in both academic and industrial circles. Dr. Yuan continues to build on this momentum, and his future contributions are expected to lead to even greater recognition in the scientific and academic communities.

Conclusion

Dr. Yuliang Yuan’s impressive body of work, with a focus on sustainable energy solutions, his continuous academic growth, and his ability to publish in high-impact journals, makes him a strong candidate for the Best Researcher Award. However, to further solidify his standing, expanding the broader application of his research and increasing his engagement with teaching and mentoring could help elevate his contributions to both the academic and practical domains of science.

Publications Top Noted

  • Title: “Hard Lewis acid induced chloride repulsion for durable neutral seawater electrolysis”
    Authors: S. Feng, G. Li, Q. Wei, X. Tian, Z. Kang
    Journal: Nano Energy, 2025
    Citations: 0

  • Title: “Iridium-based electrocatalysts for acidic oxygen evolution reaction”
    Authors: Y. Yu, G. Li, Y. Xiao, X. Tian, Y. Yuan
    Journal: Journal of Energy Chemistry, 2025
    Citations: 1

 

Jeremie Zaffran | Chemistry | Best Researcher Award

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Prof. Dr. Jeremie Zaffran | Chemistry | Best Researcher Award

Researcher at CNRS, France

Dr. Jeremie Zaffran is a distinguished computational chemist specializing in heterogeneous catalysis and machine learning. He is a Tenured Research Fellow at the French National Center for Scientific Research (CNRS), based at the E2P2L (Eco Efficient Products and Processes Lab) in Shanghai, China. With a strong background in computational techniques, Zaffran’s work focuses on using ab initio calculations and microkinetics simulations to address challenges in renewable energy, including CO2 storage, biomass transformation, and solar water splitting. His interdisciplinary approach combines advanced computational methods with close collaboration with experimentalists. Zaffran’s career includes high-profile roles at institutions like ShanghaiTech University, the Technion–Israel Institute of Technology, and Ecole Normale Superieure de Lyon. Known for his leadership and project management skills, he has supervised multiple PhD students and worked on several large-scale research projects. He is also deeply involved in mentoring, contributing to the development of future scientific leaders.

Professional Profile

Education

Dr. Jeremie Zaffran completed his PhD in Chemistry at Ecole Normale Superieure de Lyon, France, in 2014, where he graduated with the highest distinction. His dissertation focused on computational methods for biomass transformation, specifically in designing solid catalysts using Density Functional Theory (DFT). He also holds a Master’s degree in Materials Science from Université Paris Diderot-Paris 7, where he graduated summa cum laude in 2010, ranking first in his class. Zaffran’s academic foundation was further enriched with a Bachelor’s degree in Chemistry from the same institution, where he was ranked fifth in his cohort. During his doctoral research, he worked under the guidance of Prof. Philippe Sautet and collaborated with experimental teams from IRCELYON and NOVANCE, bridging theory and application in catalysis. His academic journey laid the groundwork for his successful career in computational chemistry and materials science, with a focus on catalysis and energy-related research.

Professional Experience

Dr. Zaffran’s professional experience spans over a decade of groundbreaking work in computational catalysis. From 2011 to 2017, he worked at leading institutions such as the Technion-Israel Institute of Technology and ShanghaiTech University, where he held roles as a Postdoctoral Fellow and Research Assistant Professor. At ShanghaiTech, Zaffran led efforts to design efficient electrocatalysts using DFT and machine learning. Since 2020, he has served as a Research Fellow at CNRS, where he leads research in the E2P2L lab in Shanghai, China. His work focuses on developing sustainable technologies in catalysis for renewable energy applications, including CO2 valorization and biomass conversion. He has also contributed significantly to large interdisciplinary projects, leading computational teams for projects like “Smart Digital Catalysis.” Throughout his career, Zaffran has demonstrated expertise in collaborating across disciplines and industries, coordinating research efforts that bridge computational chemistry and experimental science.

Research Interests

Dr. Zaffran’s primary research interests lie in computational heterogeneous catalysis, with a particular focus on applying machine learning and advanced computational techniques such as ab initio calculations, microkinetics simulations, and Density Functional Theory (DFT) to solve real-world problems. His research aims to design and optimize catalysts for renewable energy applications, including biomass transformation, CO2 storage and valorization, and solar water splitting. Zaffran is also actively involved in integrating machine learning models into catalysis design, enhancing the efficiency and speed of identifying viable catalysts. His work on microkinetic simulations, especially using tools like CatMAP, has provided valuable insights into catalytic reaction mechanisms. Zaffran’s interdisciplinary approach combines computational chemistry with experimental collaborations, making his research highly relevant to sustainable energy and environmental challenges. He is particularly interested in advancing green chemistry solutions by developing catalysts that can facilitate cleaner industrial processes and renewable energy production.

Awards and Honors

Dr. Zaffran has received numerous prestigious awards and honors throughout his career. He was awarded the Lady Davis Fellowship from the Technion–Israel Institute of Technology in 2016 and the Grand Technion Energy Program (GTEP) Fellowship for Outstanding Post-Doctoral Fellows the same year. His research excellence was also recognized by the Israel Ministry of Aliyah and Immigrant Absorption Fellowship in 2015. During his academic journey, Zaffran earned the highest distinction for his PhD, summa cum laude for his Master’s degree, and cum laude for his Bachelor’s degree. His research contributions have been supported by significant grants, including those from CNRS and the National Natural Science Foundation of China (NSFC), allowing him to lead high-impact projects in the field of computational catalysis. Zaffran’s continued success in securing funding for innovative research reflects his standing as a leader in his field and his ability to attract international recognition.

Conclusion

Jeremie Zaffran is highly qualified for the Best Researcher Award. His technical expertise in computational chemistry, successful collaborations in sustainable energy research, and strong track record in leadership and mentorship make him a deserving candidate. While there are areas like expanding research diversity and increasing visibility through publications, his accomplishments to date place him among the leaders in his field.

Publications Top Noted

  • Stoichiometric Selective Carbonylation of Methane to Acetic Acid by Chemical Looping
    Authors: Y. Wang, C. Dong, M.V. Shamzhy, A.Y. Khodakov, V.V. Ordomsky
    Journal: ACS Catalysis
    Year: 2025
    Citations: 0

  • Unveiling the Phenol Direct Carboxylation Reaction Mechanism at ZrO2 Surface
    Authors: K. Zhang, C. Ma, S. Paul, J. Zaffran
    Journal: Molecular Catalysis
    Year: 2024
    Citations: 2

 

Artem Bezrukov | Chemistry | Best Researcher Award

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Dr. Artem Bezrukov | Chemistry | Best Researcher Award

Associate Professor at Kazan National Research Technological Universirty, Russia

Dr. Artem N. Bezrukov is a distinguished researcher in microfluidics and lab-on-chip technologies, specializing in the synthesis and modification of smart soft materials. As an Associate Professor at Kazan National Research Technological University (KNRTU), he has made significant contributions to the development of novel materials based on liquid crystals, quantum dots, polymers, and colloids. His expertise spans both fundamental and applied research, focusing on micro-scale material behavior and its applications in advanced technological solutions. With a strong international presence, Dr. Bezrukov has collaborated with global institutions, contributing to academic and industrial advancements in material science. His dedication to education, research, and international cooperation has established him as a key figure in the field, actively shaping the future of smart materials and nanotechnology.

Professional Profile

Education

Dr. Bezrukov holds a Ph.D. in Chemistry from Kazan State Technological University (2010), where he conducted pioneering research in the field of physical and colloid chemistry. His academic journey began with a Specialist degree in Chemical Engineering (2006) from the same institution, equipping him with a solid foundation in materials science and process engineering. In addition to his scientific studies, he earned a qualification as a Translator & Interpreter for Professional Communication (2005), demonstrating his interdisciplinary skill set. His continuous pursuit of knowledge led him to international academic programs, including a Fulbright scholarship and a short-term postdoctoral fellowship in microfluidics at Carnegie Mellon University in 2019. These experiences have contributed to his expertise in interdisciplinary research, enabling him to bridge the gap between chemistry, engineering, and applied nanotechnology.

Professional Experience

Since 2011, Dr. Bezrukov has served as an Associate Professor at the Department of Physical and Colloid Chemistry at KNRTU, where he has played a pivotal role in research and academic development. From 2012 to 2018, he also held the position of Head of the Protocol Office in the International Affairs department, strengthening global academic collaborations for his university. Prior to that, he worked as a Teaching Assistant, gaining experience in mentoring students and advancing research in material sciences. His career has been marked by his ability to integrate research with practical applications, as seen in his contributions to various funded projects, curriculum development, and international research initiatives. His professional trajectory reflects his dedication to both academic excellence and the advancement of innovative scientific research on an international scale.

Research Interests

Dr. Bezrukov’s research is centered on microfluidics and lab-on-chip technologies, with a particular focus on the synthesis and manipulation of smart soft materials. His work explores the unique properties of liquid crystals, quantum dots, polymers, and colloids, seeking to develop advanced materials for use in biomedical, optical, and nanotechnological applications. By integrating microfluidic techniques with material science, he investigates novel approaches to controlling material properties at the microscale. His research is inherently interdisciplinary, combining chemistry, physics, and engineering to create innovative solutions with broad technological applications. Through his work, he aims to bridge the gap between fundamental scientific research and real-world applications, contributing to the development of next-generation functional materials.

Awards and Honors

Dr. Bezrukov has received multiple accolades in recognition of his outstanding contributions to research and education. He was awarded the prestigious Fulbright Scholarship in 2012, which enabled him to engage in international research collaborations. His work has been further recognized through a short-term postdoctoral scholarship at Carnegie Mellon University in 2019, highlighting his expertise in microfluidics. In addition, he has been the recipient of Potanin Foundation grants (2018-2024) for his contributions to developing innovative educational modules. His participation in Erasmus+ Capacity Building and Jean Monnet projects (2019-2022) demonstrates his commitment to international academic cooperation. With over 30 peer-reviewed journal articles and more than 70 total publications, his contributions have earned him recognition as a leading researcher in the field. His accolades reflect his dedication to advancing science and education on a global scale.

Conclusion

Dr. Artem N. Bezrukov is a strong candidate for the Best Researcher Award due to his contributions to microfluidics, international collaborations, and publication record. However, further emphasis on research impact, citations, leadership in major grants, and industry applications could solidify his candidacy. If these aspects are well-documented, he stands as an excellent contender for the award.

Publications Top Noted

Title: Internationalizing engineering education: A language learning approach

Author(s): A. Bezrukov, J. Ziyatdinova

Year : 2014

Citations: 38

Title: Global challenges and problems of Russian engineering education modernization

Author(s) : J.N. Ziyatdinova, P.N. Osipov, A.N. Bezrukov

Year : 2015

Citations: 28

Title: Development of a networking model for internationalization of engineering universities and its implementation for the Russia-Vietnam partnership

Author(s) : J. Ziyatdinova, A. Bezrukov, A. Sukhristina, P.A. Sanger

Year : 2016

Citations: 26

Title: Inbound international faculty mobility programs in Russia: Best practices

Author(s) : A. Bezrukov, J. Ziyatdinova, P. Sanger, V.G. Ivanov, N. Zoltareva

Year : 2018

Citations: 25

Title:

Best practices of engineering education internationalization in a Russian Top-20 university

Author(s) : J. Ziyatdinova, A. Bezrukov, P.A. Sanger, P. Osipov

Year : 2016

Citations: 24

Title: Development of a “smart materials” master’s degree module for chemical engineering students

Author(s) : A. Bezrukov, D. Sultanova

Year : 2020

Citations: 23

Title: Going globally as a Russian engineering university

Author(s) : J. Ziyatdinova, A. Bezrukov, P. Osipov, P.A. Sanger, V.G. Ivanov

Year : 2015

Citations: 22

Title: Flexible learning model for computer-aided technical translation

Author: A. Bezrukov

Year : 2013

Citations: 22

Title: Application of microfluidic tools for training chemical engineers

Author(s) : A. Bezrukov, D. Sultanova

Year : 2020

Citations: 18

Title: International approaches to the development of cross-cultural education at high school

Author(s) : M. Panteleeva, P.A. Sanger, A. Bezrukov

Year : 2016

Citations: 17

Title: Academic writing in the historical and linguistic context: An example of German language

Author(s) : F.F. Nasibullina, A.N. Bezrukov

Year : 2015

Citations: 9

Title:  Effect of the length of surfactant hydrocarbon radicals on the association of cationic polyelectrolytes with alkyl sulfates in water-alcohol solutions

Author(s) : S.V. Shilova, A.N. Bezrukov, A.Y. Tret’yakova, M.A. Voronin, L.Y. Zakharova, …

Year : 2012

Citations: 9

Title:  Effect of molecular weight of poly-N-benzyl-N,N-dimethyl-N-methacryloyloxyethylammonium chloride on its complexation with sodium dodecyl sulfate

Author(s) : S.V. Shilova, A.Y. Tret’yakova, A.N. Bezrukov, V.A. Myagchenkov, …

Year : 2007

Citations: 9

Title:  Orientation behavior of nematic liquid crystals at flow-wall interfaces in microfluidic channels

Author(s) : A. Bezrukov, Y. Galyametdinov

Year : 2023

Citations: 7

Title: On-chip control over polyelectrolyte–surfactant complexation in nonequilibrium microfluidic confinement

Author(s) : A. Bezrukov, Y. Galyametdinov

Year : 2022

Citations:  7

Title: Control of the phase formation process in solutions of anionic polyelectrolyte—cationic surfactant complexes in a microfluidic channel

Author(s) : A.N. Bezrukov, Y.G. Galyametdinov

Year : 2020

Citations: 7

Title:  Internationalization of engineering education

Author(s) : J.N. Ziyatdinova, A.N. Bezrukov

Year : 2015

Citations: 7

Title: Association of sodium dodecyl sulfate with a cationic polyelectrolyte in aqueous-ethanol media

Author(s) : S.V. Shilova, A.N. Bezrukov, A.Y. Tret’yakova, V.P. Barabanov

Year : 2014

Citations: 6

Title: Dynamic flow control over optical properties of liquid crystal–quantum dot hybrids in microfluidic devices

Author(s) : A. Bezrukov, Y. Galyametdinov

Year : 2023

Citations: 5

Title: Characterizing properties of polymers and colloids by their reaction-diffusion behavior in microfluidic channels

Author(s) : A. Bezrukov, Y. Galyametdinov

Year : 2021

Citations: 5

 

Lin Hu | Chemistry | Best Researcher Award

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Dr. Lin Hu | Chemistry | Best Researcher Award

Jiaxing University, China

Dr. Hu Lin, a Ph.D. and Master’s supervisor, is an accomplished researcher specializing in organic and perovskite solar cells, PEDOT:PSS conductive polymers, and flexible electronic device fabrication. After earning his Master’s degree from Nanchang University in 2016 and his Ph.D. from Huazhong University of Science and Technology in 2019, he joined Jiaxing University. Despite being early in his academic career, Dr. Hu has made remarkable contributions, publishing over 30 high-impact SCI papers in esteemed journals such as Advanced Materials and Journal of Materials Chemistry A. His innovative approach is further reflected in six patent applications, three of which have been granted. As both a mentor and a researcher, he plays a pivotal role in advancing renewable energy technologies and materials science. With a strong foundation in cutting-edge research and a growing reputation, Dr. Hu Lin exemplifies excellence in academic productivity and innovation.

Professional Profile

Education

Dr. Hu Lin’s academic journey reflects a strong foundation in materials science and innovation. He earned his Master’s degree from Nanchang University in 2016 under the guidance of Professor Yiwang Chen, focusing on advanced materials research. Building on this, he pursued his Ph.D. at Huazhong University of Science and Technology, completing it in 2019 under the mentorship of Professor Yinhua Zhou. During his doctoral studies, Dr. Hu delved deeper into the development of organic and perovskite solar cells, PEDOT:PSS conductive polymers, and flexible electronic devices, establishing himself as an expert in these fields. His rigorous academic training equipped him with the technical expertise and innovative mindset needed to tackle critical challenges in renewable energy and materials science. These educational experiences laid the groundwork for his impactful research career and his ongoing contributions as a faculty member and mentor at Jiaxing University.

Professional Experience

Dr. Hu Lin has rapidly established himself as a prominent researcher and educator in materials science. In 2019, he joined Jiaxing University as a faculty member immediately after completing his Ph.D. at Huazhong University of Science and Technology. His professional work focuses on cutting-edge research in organic and perovskite solar cells, PEDOT:PSS conductive polymers, and flexible electronic devices—areas of significant importance for renewable energy and advanced electronics. As both a researcher and a Master’s supervisor, Dr. Hu has published over 30 high-impact SCI papers in renowned journals such as Advanced Materials and Advanced Functional Materials. His innovative contributions extend beyond academia, with six patent applications, including three granted patents, underscoring his commitment to translating research into practical solutions. Dr. Hu’s dedication to academic excellence, innovation, and mentorship has solidified his reputation as a rising leader in materials science and renewable energy technologies.

Research Interest

Dr. Hu Lin’s research interests lie at the forefront of materials science, with a strong focus on renewable energy and advanced electronic devices. His work centers on organic and perovskite solar cells, exploring innovative approaches to improve their efficiency, stability, and scalability for practical applications. Additionally, he specializes in PEDOT:PSS conductive polymers, investigating their potential as versatile materials for flexible and transparent electronics. Dr. Hu is also dedicated to advancing the fabrication of flexible electronic devices, which have promising applications in wearable technology and next-generation displays. By combining fundamental research with practical innovations, he aims to address critical challenges in energy sustainability and device miniaturization. His research not only contributes to the academic understanding of these materials but also paves the way for real-world applications, making significant strides in both environmental and technological advancements. Dr. Hu’s work embodies a vision of merging science with innovation for a sustainable future.

Award and Honor

Dr. Hu Lin has been recognized for his exceptional contributions to materials science and renewable energy research through various awards and honors. Although specific accolades are not detailed in his profile, his accomplishments as a prolific researcher and innovator speak volumes about his growing reputation. With over 30 high-impact publications in prestigious journals such as Advanced Materials and Advanced Functional Materials, and multiple granted patents, Dr. Hu’s work has undoubtedly earned him respect in the academic and scientific communities. His early-career achievements, including groundbreaking advancements in organic and perovskite solar cells, showcase his potential for further recognition at both national and international levels. As a Master’s supervisor and active contributor to cutting-edge technologies, Dr. Hu’s dedication to innovation and mentorship positions him as a strong contender for prestigious awards in renewable energy, materials science, and applied research in the future.

Conclusion

Hu Lin is a strong candidate for the Best Researcher Award. His prolific publishing record, innovative contributions in cutting-edge research areas, and dedication to both academic and applied advancements establish him as a rising star in materials science. Addressing the areas of improvement, such as showcasing the broader impact of his research and securing notable international recognition, could further solidify his eligibility. Overall, his accomplishments and potential make him a highly competitive nominee for this award.

Publications top noted

  • Title: Ionized Phenanthroline Derivatives Suppressing Interface Chemical Interactions with Active Layer for High-efficiency Organic Solar Cells with Exceptional Device Stability
    Authors: Hu, L., Quan, J., Li, J., Li, Z., Chen, Y.
    Journal: Advanced Materials
    Year: 2024
    Volume: 36(49), Article number 2413232
    Citations: 1
  • Title: PEDOT Counterions Enabled Oriented Polyaniline Nanorods for High Performance Flexible Supercapacitors
    Authors: Jin, Y., Li, Z., Huang, S., Wang, H., Li, Z.
    Journal: Colloids and Surfaces A: Physicochemical and Engineering Aspects
    Year: 2024
    Volume: 697, Article number 134461
    Citations: 3
  • Title: Ethyl Thioglycolate Assisted Multifunctional Surface Modulation for Efficient and Stable Inverted Perovskite Solar Cells
    Authors: Wang, Y., Wang, F., Song, J., Yan, W., Gao, F.
    Journal: Advanced Functional Materials
    Year: 2024
    Volume: 34(38), Article number 2402632
    Citations: 4
  • Title: Small Molecule Perylene Diimide Derivatives with Different Bay Site Modifications as Cathode Interface Layers for Organic Solar Cells
    Authors: Wang, Y., Zhou, D., Lan, S., Xu, Z., Chen, L.
    Journal: Chemical Engineering Journal
    Year: 2024
    Volume: 496, Article number 154206
    Citations: 2
  • Title: N-Type Small Molecule Electrolyte Cathode Interface Layer with Thickness Insensitivity for Organic Solar Cells
    Authors: Zhou, D., Wang, Y., Li, Y., Xu, Z., Chen, L.
    Journal: Nano Energy
    Year: 2024
    Volume: 128, Article number 109890
    Citations: 5
  • Title: Synergistically Modulating the Bay and Amid Sites of a Perylene Diimide Cathode Interface Layer for High-Efficiency and High-Stability Organic Solar Cells
    Authors: Wang, J., Zhou, D., Quan, J., Li, Z., Chen, L.
    Journal: ACS Sustainable Chemistry and Engineering
    Year: 2024
    Volume: 12(30), Pages 11385–11395
    Citations: 3
  • Title: Biobased Thermoset Substrate for Flexible and Sustainable Organic Photovoltaics
    Authors: Tian, J., You, Y., Zhou, H., Xie, Y., Hu, X.
    Journal: Advanced Functional Materials
    Year: 2024
    Volume: 34(29), Article number 2400547
    Citations: 5
  • Title: Synchronous Modulation of Hole-Selective Self-Assembled Monolayer and Buried Interface for Inverted Perovskite Solar Cells
    Authors: Wang, Y., Ye, J., Song, J., Li, Z., Yan, W.
    Journal: Cell Reports Physical Science
    Year: 2024
    Volume: 5(6), Article number 101992
    Citations: 1
  • Title: Doping of ZnO Electron Transport Layer with Organic Dye Molecules to Enhance Efficiency and Photo-Stability of the Non-Fullerene Organic Solar Cells
    Authors: Hu, L., Han, L., Quan, J., Li, Z., Chen, L.
    Journal: Small
    Year: 2024
    Volume: 20(21), Article number 2310125
    Citations: 3
  • Title: N-Type Small Molecule Electron Transport Layers with Excellent Surface Energy and Moisture Resistance Siloxane for Non-Fullerene Organic Solar Cells
    Authors: Li, Y., Zhou, D., Han, L., Xu, H., Chen, L.
    Journal: Small
    Year: 2024
    Volume: 20(19), Article number 2308961
    Citations: Not specified in the provided data.

Idrees Khan | Applied Chemistry | Best Researcher Award

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Dr Idrees Khan | Applied Chemistry | Best Researcher Award

Postdoctoral fellow,School of Chemistry and Chemical Engineering, Northwestern Polytechnical University, China

Dr. Idrees Khan is a renowned scientist specializing in Applied Chemistry with expertise in nanomaterials and nanocomposites for environmental applications. With over 60 research publications and more than 8,000 citations, Dr. Khan’s work has garnered international recognition, including his inclusion in the top 2% scientists of 2024. His pioneering research focuses on enhancing the photocatalytic efficiency of metal oxide nanoparticles, contributing significantly to environmental sustainability. Dr. Khan is a Postdoctoral Fellow at Northwestern Polytechnical University, China, and an Honorary Postdoctoral Fellow at INTI International University, Malaysia. His efforts in computational simulations, alongside experimental techniques, position him as a leader in his field. Dr. Khan is dedicated to advancing innovative solutions for environmental pollution using cutting-edge nanotechnology, with his review article on nanoparticles being the most popular on Science Direct.

Profile

Strengths for the Award:

  1. Extensive Research Contributions:
    • Dr. Khan has an impressive track record with over 60 research articles published in reputable journals and more than 8,000 citations, a testament to the impact and quality of his work. His review article on nanoparticles, “Nanoparticles: Properties, applications, and toxicities,” has garnered significant attention, making it one of the most popular articles on ScienceDirect with the highest citations.
  2. High Research Impact:
    • His inclusion in the top 2% of scientists in 2024 highlights his global recognition and the influence of his research in his field. His work has contributed to enhancing the photocatalytic efficiency of metal oxide nanoparticles, which has vital implications for environmental sustainability.
  3. Interdisciplinary Expertise:
    • Dr. Khan’s expertise spans both experimental and computational research, covering the synthesis of advanced nanomaterials, their applications in environmental cleanup, and computational simulations. This broad skill set gives him an edge in tackling multifaceted problems in applied chemistry and materials science.
  4. International Collaboration and Recognition:
    • His experience as a postdoctoral fellow at prestigious institutions like Northwestern Polytechnical University in China and INTI International University in Malaysia underscores his global network and recognition in the scientific community. This international experience enriches his research and outreach efforts.
  5. Diverse Range of Research Topics:
    • His research interests range from photocatalysis, material science, and environmental monitoring to toxicology and nanocomposite development. Such diversity broadens his ability to solve complex environmental problems, contributing significantly to sustainable technologies.
  6. Academic Background and Teaching Experience:
    • Dr. Khan has demonstrated strong teaching capabilities, having worked as a visiting lecturer at the University of Malakand and currently serving as an honorary postdoctoral fellow. His ability to bridge teaching with research adds another layer to his profile as a well-rounded academic.
  7. Leadership in Research Publications:
    • His high citation count, coupled with his leadership in publishing high-impact articles, indicates his strong research direction and ability to lead projects that resonate with the scientific community. His involvement in cutting-edge studies like photocatalytic applications and microwave absorption for environmental remediation demonstrates his leadership in emerging fields.

Areas for Improvement:

  1. Public Outreach and Broader Engagement:
    • While Dr. Khan’s research is impactful, there is potential for expanding his public engagement efforts. He could focus on bridging the gap between scientific research and public awareness by making his findings more accessible to non-experts, particularly in the context of environmental sustainability.
  2. Diversity in Research Funding and Projects:
    • Seeking more diverse funding sources or collaborative projects could enhance his research scope. Additionally, focusing on applications of nanotechnology in renewable energy or climate change mitigation could be an area for further growth.
  3. Collaboration with Industry:
    • Increased collaboration with industry could allow for the practical application of his research, translating his findings from theoretical studies to real-world, commercialized technologies. Partnering with industry experts in nanomaterials development and environmental engineering could lead to impactful innovations.

Education

Dr. Idrees Khan holds a Ph.D. in Applied Chemistry from Bacha Khan University (2020) with a CGPA of 3.5. He completed his M.Phil. in Applied Chemistry from University of Malakand in 2016, achieving a CGPA of 3.44. Prior to his graduate studies, Dr. Khan obtained a BS in Applied Chemistry from the University of Malakand (2013), where he excelled with a CGPA of 3.56. He also earned a Bachelor of Education from Sarhad University (2015). His early education includes S.S.C and F.Sc from the BISE Saidu Sharif Swat. Dr. Khan’s strong academic foundation has empowered him to pursue a career in nanomaterials research, specializing in photocatalysis and nanocomposites. His dedication to learning and research has driven his success in both academia and scientific innovation.

Experience 

Dr. Idrees Khan has significant academic and research experience. He served as a Visiting Lecturer in the Department of Chemistry at the University of Malakand (2015-2018), where he taught undergraduate students and mentored them in various chemistry courses. He is currently a Postdoctoral Fellow at Northwestern Polytechnical University, China, since May 2023, where he focuses on advanced nanomaterials for environmental applications. Additionally, Dr. Khan holds the position of Honorary Postdoctoral Fellow at INTI International University, Malaysia, since June 2023. His role involves contributing to collaborative research efforts and fostering innovation in the field of nanotechnology. His experience spans various research methodologies, including computational simulations, nanomaterials synthesis, and environmental remediation. Dr. Khan has also participated in numerous international conferences and workshops, sharing his expertise and contributing to the global scientific community.

Research Focus 

Dr. Idrees Khan’s research primarily focuses on the development and application of nanomaterials and nanocomposites for environmental sustainability. He works on enhancing the photocatalytic efficiency of metal oxide nanoparticles to address environmental issues, such as pollution control and wastewater treatment. His research delves into the synthesis and characterization of nanostructured materials, particularly supported and unsupported metal oxide nanoparticles, and their photocatalytic applications for degrading organic pollutants. Dr. Khan also specializes in computational simulations, particularly in studying the behavior of nanomaterials in environmental settings. His work extends to exploring the toxicities and applications of nanoparticles in environmental decontamination. His research aims to develop sustainable, efficient solutions for environmental challenges, including water purification and air quality improvement. Dr. Khan is also working on biological applications of nanomaterials and their interactions with pollutants and microorganisms.

Publications

  1. Strategically coupled tungsten oxide-zinc oxide photosystems for solar-driven nerve agent simulant degradation and hydrogen evolution 🌞⚗️
  2. Preparation and performance of porous carbon microwave absorber with high porosity from carbonized natural plant fibers 🌱🧯
  3. Fabrication of polydopamine doped helical/chiral porous carbon fiber (HPCFs@PDA) and N-doped carbon layers (HPCFs@NCLs) for their application as wave absorber with ultrawide EAB 📡🔬
  4. Controllable and lightweight ZIF-67@PAN derived Co@C nanocomposites with tunable and broadband microwave absorption 🧲🌐
  5. Gold recovery through synergetic adsorption and reduction using acid–base additive-reinforced tubular carbon nanofibers 💰🧪
  6. Advancements in adsorption and photodegradation technologies for Rhodamine B dye wastewater treatment: fundamentals, applications, and future directions 💧💡
  7. Highly selective sensing of toxic NOx gases for environmental monitoring using Ru-doped single-walled TiO2 nanotube: A density functional theory study 🏭⚙️
  8. Adsorption of thiophene over the transition metal-decorated C2N monolayer: A DFT approach 🌫️🧑‍🔬
  9. Improvement of the Photocatalytic and Biological Activities of Copper Oxide Nanoparticles by Coupling with Barium Oxide Nanoparticles 🧪🌿
  10. Understanding the toxicity of trinitrophenol and promising decontamination strategies for its neutralization: Challenges and future perspectives ☠️🌍

Conclusion

Dr. Idrees Khan is highly deserving of the Best Researcher Award due to his outstanding contributions to appliedchemistry and nanomaterials science, his interdisciplinary expertise, and his significant impact on environmental sustainability. His prolific research output, leadership in groundbreaking studies, and international collaborations solidify his reputation as a leader in his field. Despite some opportunities for broader outreach and industry collaboration, his overall profile is incredibly strong, making him a top contender for such an award.Dr. Khan’s extensive body of work, particularly in photocatalysis and nanocomposites, as well as his growing international recognition, aligns perfectly with the criteria typically sought in award recipients.

Abdullah Al-Bashir | Analytical chemistry | Best Researcher Award

Posted on by ScienceFather

Prof. Dr. Abdullah Al-Bashir | Analytical chemistry | Best Researcher Award

Professor, King Faisal University, Saudi Arabia

Dr. Abdalla Ahmed Elbashir is a renowned professor of Analytical Chemistry currently serving at King Faisal University in Saudi Arabia. Known for his groundbreaking work in capillary electrophoresis (CE) and chiral separations, Dr. Elbashir has made significant contributions to analytical chemistry, particularly in pharmaceutical and environmental applications. His esteemed career spans multiple prestigious academic institutions, making him a well-regarded figure in his field. 🌍🔬

Profile

Scopus

Education

Dr. Elbashir earned his Ph.D. in Analytical Chemistry from University Science Malaysia (USM), receiving the Best Ph.D. Thesis Award for Pure Science. Prior to this, he completed an M.Sc. and B.Sc. in Chemistry from the University of Khartoum, where he graduated with first-class honors and earned the University Prize. His academic journey also includes a Humboldt Research Fellowship, which enabled him to pursue postdoctoral research at Duisburg-Essen University in Germany, further solidifying his expertise in analytical techniques and methodologies. 🎓📜

Experience

With over two decades of academic and professional experience, Dr. Elbashir has held esteemed positions including Professor of Chemistry at King Faisal University and the University of Khartoum. He has served as a visiting professor at the Max Planck Institute of Biochemistry and as a consultant for Sultan Qaboos University. Earlier in his career, Dr. Elbashir gained practical experience as Chief Analytical Chemist at El-Shifa Pharmaceuticals Industries in Sudan, where he specialized in quality control using advanced analytical techniques. 💼🏛️

Research Interests

Dr. Elbashir’s research focuses on developing and validating analytical methods to detect food contaminants, exploring chiral analysis of pharmaceuticals, and innovating in nanoparticle synthesis for environmental applications. His interdisciplinary approach extends to applications in environmental science, including pollutant removal and characterization of archaeological artifacts from Sudanese sites. This comprehensive research portfolio demonstrates his commitment to advancing analytical chemistry while addressing pressing global challenges. 🌱💊

Awards

Throughout his career, Dr. Elbashir has been recognized with numerous awards, including the Distinguished Scholar Award from the Arab Fund Fellowship Program in Kuwait and multiple honors from University Science Malaysia, such as the Best Ph.D. Thesis Award and the prize for publishing in high-impact journals. These accolades reflect his exceptional contributions to science, particularly within analytical chemistry and environmental research. 🏆✨

Publications Top Notes

Dr. Elbashir has authored over 100 papers in high-impact journals and a notable book titled Capillary Electrophoresis Methods in Pharmaceutical Analysis. His work spans various fields of analytical chemistry, including capillary electrophoresis and chiral separations. Some of his key publications include:

Elawad, M., Elbashir, A. A., Sajid, M., et al. Metal complex as p-type dopant-based organic spiro-OMeTAD hole-transporting material for free-Li-TFSI perovskite solar cells. Journal of Chemical Physics, 2024; 160(4): 044707. [Cited by 15]

Ziyada, A.K., Osman, A., Elbashir, A. A., et al. Exploring the Effect of Different Anions and Cations on the Solubility of CO2 in Nitrile Imidazolium-Based Ionic Liquids. Korean Journal of Chemical Engineering, 2024; 41, 1791–1803. [Cited by 10]

Alsadun, N. S., Alfadil, A. A., Elbashir, A. A., et al. Polyaromatic Hydrocarbon Inclusion Complexes with 2-Hydroxylpropyl-β/γ-Cyclodextrin: Molecular Dynamic Simulation and Spectroscopic Studies. Molecules, 2024; 29(11): 2535. [Cited by 7]