Mi Jeong Lim | Chemistry | Research Excellence Award

Published on by Global Scholar Awards

Ms. Mi Jeong Lim | Chemistry | Research Excellence Award

Researcher | Baekdudaegan National Arboretum | South Korea

Dr. Lim Mi-jeong is a researcher at the Catholic University of Daegu, Gyeongsan, South Korea, with expertise in food science, physicochemical characterization, and antioxidant activity of natural products. Her research emphasizes the evaluation of bioactive compounds derived from plant-based materials and their functional relevance to food preservation and health-related applications. She has contributed peer-reviewed scholarly articles that have attracted citations from the international research community, demonstrating the academic relevance of her work. One of her key studies, published in the Korean Journal of Food Preservation, investigates the physicochemical properties and antioxidant potential of spray-dried plant extracts. Dr. Lim actively collaborates with researchers in food chemistry and functional food science. Her work supports the development of value-added, health-oriented food ingredients, contributing to scientific progress and broader societal well-being.

Citation Metrics (Scopus)

9
7
5
3
0

Citations

9

Documents

2

h-index

2

Citations

Documents

h-index

View Scopus Profile
 View ORCID Profile

Featured Publications

Katarzyna Cieślak | Chemical Engineering | Research Excellence Award

Published on by Global Scholar Awards

Dr. Katarzyna Cieślak | Chemical Engineering | Research Excellence Award

Assistant Professor | Warsaw University of Technology | Poland

Dr. Katarzyna Cieślak is a researcher at Politechnika Warszawska (Warsaw University of Technology), Poland, with expertise in polymer science, materials engineering, and the stability of energetic materials. Her research focuses on the design and evaluation of advanced polymers and propellant formulations, with particular attention to environmentally friendly plasticizers that enhance safety, durability, and performance. Her scholarly work is widely recognized and has achieved notable visibility and impact within the scientific community. Dr. Cieślak actively engages in interdisciplinary and international collaborations, contributing to research that connects fundamental material science with applied industrial solutions. Through her studies, she supports the development of safer and more sustainable material technologies, promoting environmentally responsible innovation and contributing to broader societal goals related to safety, sustainability, and technological advancement.

Citation Metrics (Scopus)

166
120
80
40
0

Citations

166

Documents

16

h-index

7

Citations

Documents

h-index

View Scopus Profile View ORCID Profile

Featured Publications

Gerasimos Lyberatos | Chemical Engineering | Research Excellence Award

Published on by Global Scholar Awards

Prof. Gerasimos Lyberatos | Chemical Engineering | Research Excellence Award

Professor of Chemical Engineering | National Technical University of Athens | Greece

Prof. Gerasimos C. Lyberatos is a senior academic and researcher at the National Technical University of Athens (NTUA), Greece, specializing in environmental biotechnology and bioenergy systems. His research focuses on anaerobic digestion, microbial electrochemical technologies, electromethanogenesis, waste and biomass valorization, and circular bioeconomy strategies. He has made substantial contributions through widely cited scholarly publications in leading international journals, including interdisciplinary work combining process engineering, microbiology, and mathematical modeling. Prof. Lyberatos maintains extensive international collaborations, contributing to large, multi-institutional research efforts. His work addresses critical global challenges such as sustainable waste management, renewable energy production, greenhouse gas mitigation, and resource recovery, translating scientific innovation into practical solutions with strong environmental and societal impact.

Citation Metrics (Scopus)

13,005
10000
7500
2500
0

Citations

13,005

Documents

307

h-index

58

Citations

Documents

h-index

View Google Scholar Profile View Scopus Profile View ORCID Profile

Featured Publications


Pharmaceutical pollution of the world’s rivers

– Proceedings of the National Academy of Sciences (PNAS), 2022 · Cited by 1502

Biohydrogen production from biomass and wastes via dark fermentation: A review

– Waste and Biomass Valorization, 2010 · Cited by 440

Chengbiao Tong | Engineering | Research Excellence Award

Published on by Global Scholar Awards

Mr. Chengbiao Tong | Engineering | Research Excellence Award

Professor | Hunan Agricultural University | China

Dr. Chengbiao Tong is a researcher at Hunan Agricultural University specializing in intelligent aquaculture, computer vision, and deep-learning-based environmental monitoring. He has contributed a growing body of scientific work, with publications advancing automated recognition systems, image-based analysis, and smart farming technologies. His research has accumulated meaningful citations and demonstrates increasing visibility within the agricultural technology community. Dr. Tong actively collaborates with multidisciplinary teams and co-authors, supporting innovation at the intersection of artificial intelligence and modern aquaculture. His work on YOLO-based detection models, including applications for fish health monitoring, contributes to improving sustainability, efficiency, and early-warning capabilities in aquatic farming systems. Through his research, he promotes data-driven decision-making and enhances the technological transformation of agriculture.

Citation Metrics (Scopus)

40

30

20

10

0

Citations
32

Documents
16

h-index
3
                          🟦Citations
       🟥Documents
     🟩h-index


View Scopus Profile
 View ORCID Profile

Featured Publications

Jia Jinlong | Engineering | Research Excellence Award

Published on by Global Scholar Awards

Assoc. Prof. Dr. Jia Jinlong | Engineering | Research Excellence Award

Head of the Mining Department | Wuhan Institute of Technology | China

Dr. Jinlong Jia is a researcher at the Lanzhou Institute of Technology, China, specializing in coal engineering, gas extraction technologies, and energy-related geomechanics with a focus on improving safety, efficiency, and sustainability in coal mining operations. With 24 scientific publications, 434 citations, and an h-index of 12, he has established a strong research profile in the fields of coal pore structure evolution, borehole optimization, and fluid–rock interactions under complex geological conditions. His recent work includes developing numerical simulation models to quantitatively evaluate effect factors in multi-branch pinnate borehole gas extraction in high-gas thick coal seams, and investigating the influence of CO₂–H₂O interaction time on coal pore morphology and water migration, published in Energy and already earning citations for its contributions to clean energy and mine safety. Dr. Jia’s research integrates computational modeling, experimental coal chemistry, and engineering applications to address critical challenges in methane extraction, gas-solid coupling mechanisms, and geological hazard prevention. Over his career, he has collaborated with more than 67 co-authors, demonstrating extensive engagement in multidisciplinary and multi-institutional research teams working across geology, mining engineering, and energy science. His findings contribute to national and global efforts toward safer mining environments, enhanced gas utilization, reduced greenhouse gas emissions, and improved resource recovery efficiency. Through advancing both theoretical understanding and practical solutions in coalbed methane extraction and pore-scale mechanisms, Dr. Jia continues to play a significant role in supporting sustainable energy development and improving engineering practices within the mining and geoscience sectors.

Profile: Scopus 

Featured Publications

Zhu, X., Jia, J., Zhang, L., Ma, Z., Qin, Z., Zhang, H., & Liu, Z. (2025). Study on the numerical simulation model for quantitative evaluation on effect factors of multi‑branch pinnate borehole gas extraction in high‑gas thick coal seams. Himalayan Geology, 46(2), 125–135.

Xu, H., Hu, J., Liu, H., Ding, H., Zhang, K., Jia, J., Fang, H., & Gou, B. (2024). Effect of the interaction time of CO₂–H₂O on the alterations of coal pore morphologies and water migration during wetting. Energy, 294, Article 130944. https://doi.org/10.1016/j.energy.2024.130944

Kazeem Salam | Chemical Engineering | Best Researcher Award

Published on by Global Scholar Awards

Assoc. Prof. Dr. Kazeem Salam | Chemical Engineering | Best Researcher Award

Reader | Ladoke Akintola University of Technology | Nigeria

Assoc. Prof. Dr. Kazeem Kolapo Salam is a distinguished Nigerian academic and researcher in Chemical Engineering with extensive expertise in energy, petroleum, and process optimization. Born on January 14, 1978, in Oyo State, he obtained his B.Tech (Hons) in Chemical Engineering from Ladoke Akintola University of Technology in 2002, followed by an M.Sc. in Petroleum Engineering from the University of Ibadan in 2007, and a Ph.D. in Energy and Power from Cranfield University, UK, in 2018 under the prestigious TETFUND AST&D Ph.D. sponsorship. He is a registered COREN engineer (15279) since 2008 and began his academic career as a Teaching Assistant at LAUTECH, progressing through Assistant Lecturer, Lecturer I & II, Senior Lecturer, and currently serving as a Reader in Chemical Engineering since 2021. Dr. Salam has rich experience in both teaching and research, delivering courses in Transport Phenomena, Process Design, Process Optimization, Advanced Process Design, Petroleum Technology, and Separation Processes at undergraduate and postgraduate levels. His research interests focus on energy systems, petroleum technology, adsorption and microbial desulfurization, pharmaceutical wastewater treatment, and process optimization, demonstrated through his supervision of numerous M.Tech, Ph.D., and PGD students. He has also contributed to industrial research through internships and consultancy, including quality assurance at the Nigerian Army Small Scale Drug Manufacturing Unit and postgraduate research at SPDC, Port Harcourt. Dr. Salam has provided exemplary service in academic administration, acting as Deputy Dean of the Faculty of Engineering, Coordinator of Industrial Training, Chair of Faculty International Conferences, and advisor to professional student chapters. His awards include the TETFUND AST&D Ph.D. sponsorship and recognition for excellence in research and mentorship. With strong interdisciplinary research skills, professional leadership, and a commitment to student development, Assoc. Prof. Dr. Kazeem Salam continues to advance chemical engineering education and research, making significant contributions to industry, academia, and the broader scientific community.

Profiles: Google Scholar | Scopus | ResearchGate| LinkedIn

Featured Publications

  • Salam, K. K., Alade, A. O., Arinkoola, A. O., & Opawale, A. (2013). Improving the demulsification process of heavy crude oil emulsion through blending with diluent. Journal of Petroleum Engineering, 2013(1), 793101. https://doi.org/10.1155/2013/793101 (Cited by 78)

  • Oke, E. O., Adeyi, O., Okolo, B. I., Ude, C. J., Adeyi, J. A., Salam, K. K., Nwokie, U., et al. (2021). Heterogeneously catalyzed biodiesel production from Azadiricha Indica oil: Predictive modelling with uncertainty quantification, experimental optimization and techno-economic analysis. Bioresource Technology, 332, 125141. https://doi.org/10.1016/j.biortech.2021.125141 (Cited by 54)

  • Salam, K. K., Arinkoola, A. O., Oke, E. O., & Adeleye, J. O. (2014). Optimization of operating parameters using response surface methodology for paraffin-wax deposition in pipeline. Petroleum and Coal, 56(1), 19–28. (Cited by 42)

  • Aremu, M. O., Arinkoola, A. O., Olowonyo, I. A., & Salam, K. K. (2020). Improved phenol sequestration from aqueous solution using silver nanoparticle modified Palm Kernel Shell Activated Carbon. Heliyon, 6(7), e04567. https://doi.org/10.1016/j.heliyon.2020.e04567 (Cited by 36)

  • Falode, O. A., Salam, K. K., Arinkoola, A. O., & Ajagbe, B. M. (2013). Prediction of compressive strength of oil field class G cement slurry using factorial design. Journal of Petroleum Exploration and Production Technology, 3(4), 297–302. https://doi.org/10.1007/s13202-013-0070-8 (Cited by 31)

Feng Wang | Chemical Engineering | New Horizons Science Invention Award

Published on by Global Scholar Awards

Mr. Feng Wang | Chemical Engineering | New Horizons Science Invention Award

Associate Professor | Jiangnan University | China

Mr. Feng Wang, Associate Professor at the School of Chemical and Material Engineering, Jiangnan University, China, is a distinguished researcher specializing in protein separation, enzyme technology, and industrial biocatalysis, with practical experience in extracting polysaccharides and phycocyanin from Spirulina and stabilizing enzymes such as amylase and lipase for industrial applications. He earned his Ph.D. from Jiangnan University in 2005, focusing on the production of γ-Cyclodextrin Glycosyltransferase by Bacillus macerans WSH02-06, following an M.S. in the improvement of nonionic surfactants for cosmetics from Wuxi University of Light Industry (2001) and a B.A. in Fine Chemical Products from Jiangsu Institute of Petrochemical Technology (1993). Professionally, he has been teaching at Jiangnan University since 2005, supervising master’s dissertations, lecturing in enzymology and organic chemistry, and serving as a visiting scholar at Rensselaer Polytechnic Institute, USA, where he studied immobilized cutinases and their thermal stability. His research interests include enzyme immobilization, protein-ligand interactions, cyclodextrin synthesis, and industrial applications of biocatalysis, with skills in enzyme production, purification, activity modulation, and industrial-scale bioprocessing. Dr. Wang has led major research projects, including as deputy leader of the National High Technology Research and Development Program of China, and published extensively in reputed journals such as International Journal of Biological Macromolecules and Colloids and Surfaces A, with 651 citations across 27 documents and an h-index of 11. His awards include the Second-class Jiangsu Province Higher Education School Science and Technology Research Achievement Award (2021) and the Third-class Scientific and Technological Progress Award of China Light Industry Federation (2021), as well as the Distinguished Doctoral Dissertation Award of Jiangsu Province (2006). With his extensive expertise, leadership in research projects, strong publication record, and active mentorship, Mr. Feng Wang is well-positioned to drive innovation and elevate global standards in enzyme technology, biocatalysis, and industrial biotechnology.

Profiles: Google Scholar | Scopus | ORCID | ResearchGate

Featured Publications

  1. Li, Z., Wang, M., Wang, F., Gu, Z., Du, G., Wu, J., & Chen, J. (2007). γ-Cyclodextrin: A review on enzymatic production and applications. Applied Microbiology and Biotechnology, 77(2), 245–255. Citations: 303

  2. Wang, F., Liu, P., Nie, T., Wei, H., & Cui, Z. (2012). Characterization of a polyamine microsphere and its adsorption for protein. International Journal of Molecular Sciences, 14(1), 17–29. Citations: 114

  3. Cui, Z., Du, X., Pei, X., Jiang, J., & Wang, F. (2012). Synthesis of didodecylmethylcarboxyl betaine and its application in surfactant–polymer flooding. Journal of Surfactants and Detergents, 15(6), 685–694. Citations: 87

  4. Cui, Z., Song, H., Yu, J., Jiang, J., & Wang, F. (2011). Synthesis of N-(3-Oxapropanoxyl)dodecanamide and its application in surfactant–polymer flooding. Journal of Surfactants and Detergents, 14(3), 317–324. Citations: 38

  5. Wang, F., Gu, Z., Cui, Z., & Liu, L. (2011). Comparison of covalent immobilization of amylase on polystyrene pellets with pentaethylenehexamine and pentaethylene glycol spacers. Bioresource Technology, 102(20), 9374–9379. Citations: 29

Jörg Kärger | Chemical Engineering | Best Researcher Award

Published on by Global Scholar Awards

Jörg Kärger | Chemical Engineering | Best Researcher Award

Professor at Leipzig University  Germany

Prof. Dr. Jörg Kärger, born in 1943 in Erfurt, is a distinguished physicist renowned for his pioneering contributions to diffusion in porous materials. After studying physics at Leipzig University, he earned his Ph.D. in 1970 and later his habilitation in 1978. Over nearly four decades at Leipzig University, he held several academic roles, including full professorship in Interface Physics, and became Professor Emeritus in 2009. He has served as Dean, Ombudsman, and president of the German Zeolite Association. Internationally recognized, Kärger has received prestigious honors such as the Gustav-Hertz Award, Max Planck Research Award, and ENI Award. He is a member of the Saxon Academy of Sciences and chaired the IUPAC task group on diffusion in nanoporous solids. His scholarly impact includes landmark publications like Diffusion in Zeolites and Diffusion in Nanoporous Materials, advancing fundamental understanding in physics, chemistry, and materials science. He continues to inspire through his academic leadership and prolific research output.

Professional Prof

Education🎓

Prof. Dr. Jörg Kärger’s educational background laid a strong foundation for his distinguished scientific career in physics and material science. He began his academic journey studying physics at Leipzig University from 1962 to 1967, where he developed a keen interest in transport phenomena and condensed matter physics. In 1970, he earned his Ph.D. in Physics from the same institution, focusing on molecular diffusion—an area that would define his future research legacy. His academic excellence and commitment to deepening scientific knowledge led him to complete his habilitation (Promotion B) in 1978, a prestigious post-doctoral qualification in the German academic system. This qualification established him as an independent researcher and opened the path to his long-standing teaching and research career at Leipzig University. His educational achievements reflect a rigorous and methodical training in fundamental physics, which he later applied to pioneering research in diffusion within porous and nanoporous materials, contributing extensively to the global scientific community.

Professional Experience📝

Prof. Dr. Jörg Kärger has had a distinguished professional career centered at Leipzig University, where he significantly advanced the field of diffusion in porous and nanoporous materials. Beginning in 1970 as a scientific co-worker, he progressed through academic ranks, becoming a senior co-worker, lecturer, extra-ordinary professor, and ultimately holding a full professorship in Interface Physics from 1994 until his retirement in 2009. His academic leadership included roles as Dean of the Faculty of Physics and Earth Sciences, Ombudsman of the university, and President of the German Zeolite Association. Since 2015, he has contributed to international scientific collaboration as a member—and from 2018, chair—of the IUPAC task group on “Diffusion in Nanoporous Solids.” His professional experience is marked by excellence in teaching, mentorship, and groundbreaking research, with a strong focus on physical chemistry and material science, earning him global recognition and multiple prestigious awards throughout his career.

Research Interest🔎

Prof. Dr. Jörg Kärger’s research interests are centered on diffusion phenomena in porous and nanoporous materials, a field in which he is regarded as a global pioneer. His work has fundamentally advanced the understanding of molecular transport in microporous solids such as zeolites, with implications across catalysis, energy storage, and materials science. He has specialized in developing and applying innovative experimental techniques, including pulsed field gradient NMR and micro-imaging methods, to directly observe and quantify diffusion processes at microscopic levels. Prof. Kärger’s interdisciplinary approach bridges physics, chemistry, and engineering, enabling the practical design of advanced materials for industrial applications. His collaborative research has also explored the role of diffusion in natural systems and societal processes, as reflected in his publications like Diffusive Spreading in Nature, Technology and Society. His work continues to influence both theoretical models and experimental practices in the study of mass transport in confined systems.

Award and Honor🏆

Prof. Dr. Jörg Kärger has received numerous prestigious awards and honors in recognition of his groundbreaking contributions to diffusion science and material research. In 1978, he was awarded the Gustav-Hertz Award by the German Physical Society, followed by the Leibniz Medal from the German Academy of Sciences in 1980. His international acclaim was solidified with the Donald W. Breck Award from the International Zeolite Association in 1986 and the Max Planck Research Award in 1993, jointly granted by the Alexander von Humboldt Foundation and the Max Planck Society. He was elected a member of the Saxon Academy of Sciences and Humanities in 2000 and received the Theodor Litt Award from Leipzig University in 2005. In 2019, he was honored with the Literature Prize of the Fonds of Chemical Industry for co-authoring Diffusive Spreading in Nature, Technology and Society, and in 2020, he received the prestigious ENI Award for “Advanced Experimental Solutions” alongside Jürgen Caro.

Research Skill🔬

Prof. Dr. Jörg Kärger possesses exceptional research skills that have positioned him as a leading expert in the field of diffusion and transport phenomena in porous materials. His expertise lies in both the theoretical modeling and experimental investigation of molecular diffusion, particularly within microporous and nanoporous systems such as zeolites. He is renowned for his development and application of advanced techniques, including pulsed field gradient nuclear magnetic resonance (PFG NMR) and micro-imaging, which allow for the direct observation of transport processes at the molecular level. Prof. Kärger’s interdisciplinary research approach combines physics, chemistry, and materials science, enabling him to tackle complex scientific questions with high precision and innovation. His skills extend to designing experimental setups, interpreting complex diffusion behavior, and publishing high-impact scientific literature. Through collaborative and independent projects, he has demonstrated strong analytical thinking, methodological rigor, and a deep commitment to advancing fundamental understanding with practical relevance in science and industry.

Conclusion💡

Prof. Dr. Jörg Kärger’s illustrious career reflects a lifelong dedication to scientific excellence, academic leadership, and groundbreaking research in diffusion and porous materials. Through decades of service at Leipzig University and contributions to international scientific communities, he has profoundly influenced the fields of physics, chemistry, and materials science. His innovative research methods, particularly in molecular diffusion studies, have not only deepened fundamental understanding but also inspired practical applications in catalysis, environmental science, and nanotechnology. The numerous honors and awards he has received underscore the global recognition of his work. Beyond his scientific achievements, Prof. Kärger has played key leadership roles in academic governance and professional societies, fostering research collaboration and mentoring the next generation of scientists. His publications, including widely cited books and articles, continue to shape the discourse in his field. As a scientist, educator, and thought leader, Prof. Kärger’s legacy will endure across disciplines and generations.

Publications Top Noted✍️

  • Title: Diffusion in Zeolites
    Authors: J. Kärger, S. Vasenkov, S.M. Auerbach
    Year: 2003
    Citations: 3,067

  • Title: Principles and Application of Self-Diffusion Measurements by Nuclear Magnetic Resonance
    Authors: J. Kärger, H. Pfeifer, W. Heink
    Year: 1988
    Citations: 1,021

  • Title: Diffusion in Nanoporous Materials
    Authors: J. Kärger, D.M. Ruthven, D.N. Theodorou
    Year: 2012
    Citations: 894

  • Title: Diffusion in Condensed Matter: Methods, Materials, Models
    Authors: P. Heitjans, J. Kärger
    Year: 2006
    Citations: 577

  • Title: Single-File Diffusion Observation
    Authors: K. Hahn, J. Kärger, V. Kukla
    Year: 1996
    Citations: 558

  • Title: The Propagator Representation of Molecular Transport in Microporous Crystallites
    Authors: J. Kärger, W. Heink
    Year: 1983
    Citations: 484

  • Title: NMR Studies of Single-File Diffusion in Unidimensional Channel Zeolites
    Authors: V. Kukla, J. Kornatowski, D. Demuth, I. Girnus, H. Pfeifer, L.V.C. Rees, J. Kärger
    Year: 1996
    Citations: 416

  • Title: NMR Self-Diffusion Studies in Zeolite Science and Technology
    Authors: J. Kärger, H. Pfeifer
    Year: 1987
    Citations: 393

  • Title: NMR Self-Diffusion Studies in Heterogeneous Systems
    Authors: J. Kärger
    Year: 1985
    Citations: 330

  • Title: Mass Transfer in Mesoporous Materials: The Benefit of Microscopic Diffusion Measurement
    Authors: J. Kärger, R. Valiullin
    Year: 2013
    Citations: 288

Alexandre CHAGGNES | Chemistry | Best Researcher Award

Published on by Global Scholar Awards

Prof. Dr. Alexandre CHAGGNES | Chemistry | Best Researcher Award

Professor at Université de Lorraine , France

Prof. Alexandre Chagnes is a highly accomplished researcher with extensive contributions to hydrometallurgy, recycling, electrochemistry, and nuclear chemistry. With over 167 publications, multiple patents, and leadership roles in major research initiatives such as Labex Ressources21 and the Promethee network, he has demonstrated excellence in both academic and applied research. His work in lithium-ion battery recycling and solvent extraction is internationally recognized, and he has played a key role in organizing major scientific conferences and editing influential publications. In addition to his research, Prof. Chagnes is a dedicated educator and mentor, significantly contributing to advanced training in physical chemistry and nuclear processes. While already a global expert, increased collaboration with top international institutions and greater engagement in public science communication could further enhance his impact. Overall, Prof. Chagnes exemplifies innovation, leadership, and scientific excellence, making him a highly suitable and deserving candidate for the Best Researcher Award.

 

Professional Profile 

Education🎓

Prof. Alexandre Chagnes has a strong and focused academic background in chemistry, which laid the foundation for his distinguished research career. He earned his Ph.D. in Physical Chemistry from the University of Tours in 2002, where his doctoral research concentrated on the thermodynamic and electrochemical study of organic electrolytes for lithium-ion batteries. Prior to this, he completed a Master’s degree in Catalysis, Energy, and Clean-up Processes at the University of Poitiers in 1999, emphasizing environmental and energy-related chemical processes. His academic journey began with a Bachelor’s degree in Chemistry from the University of Tours in 1997. Throughout his education, Prof. Chagnes demonstrated a strong commitment to the fields of electrochemistry and solution chemistry, which would later become central to his research focus. His formal training has not only provided him with deep scientific expertise but also positioned him to make lasting contributions in areas critical to energy, sustainability, and material science.

Professional Experience📝

Prof. Alexandre Chagnes has extensive professional experience in the fields of electrochemistry, solution chemistry, and sustainable processes for the extraction and recycling of critical metals. He is currently a Full Professor at Université Paris-Est Créteil (UPEC), where he leads research initiatives on hydrometallurgical processes and environmentally friendly technologies. Over the years, he has coordinated and participated in several national and international research projects focused on energy storage materials, lithium battery recycling, and the recovery of strategic metals. His industry collaborations and interdisciplinary work have contributed to advances in clean technology and resource efficiency. Prior to his current role, he held academic positions that allowed him to mentor Ph.D. students and publish over 100 peer-reviewed articles and book chapters. Prof. Chagnes is also actively involved in editorial work, having served as editor for books and journals related to his expertise. His professional experience reflects a commitment to innovation, sustainability, and academic leadership.

Research Interest🔎

Prof. Alexandre Chagnes’s research interests lie at the intersection of hydrometallurgy, solution chemistry, electrochemistry, and sustainable resource management. He focuses on the development of advanced processes for the extraction, separation, and recycling of strategic and critical metals, with particular emphasis on lithium, uranium, and rare earth elements. His work is highly relevant to modern energy challenges, especially in the recycling of lithium-ion batteries and the recovery of valuable metals from electronic waste and low-grade ores. Prof. Chagnes also explores thermodynamic modeling and the design of solvent extraction systems, contributing to more efficient and environmentally friendly chemical processes. Additionally, he has conducted significant research in nuclear chemistry, particularly related to separation processes in the nuclear fuel cycle. His interdisciplinary approach combines experimental and computational methods to innovate in both academic and industrial contexts. Overall, his research supports global sustainability efforts through circular economy practices and green chemistry solutions.

Award and Honor🏆

Prof. Alexandre Chagnes has earned significant recognition for his contributions to the fields of hydrometallurgy, electrochemistry, and sustainable resource recovery. While specific named awards are not detailed in the provided information, his professional distinctions are evident through his leadership roles, such as Scientific Director of Labex Ressources21 and the start-up WEEEMET, as well as Director of the national Promethee network. His repeated appointments to national academic councils, including the French National University Council for Physical and Analytical Chemistry, reflect his peers’ recognition of his scientific excellence. He has also been selected to lead and organize numerous prestigious international and national conferences, a role typically reserved for highly respected experts. Furthermore, his involvement as a reviewer for 28 international journals, and his position on several editorial and advisory boards, highlight his authority and influence in the scientific community. Collectively, these honors affirm his status as a leading researcher in his domain.

Research Skill🔬

Prof. Alexandre Chagnes possesses a highly advanced and diverse set of research skills, particularly in the domains of hydrometallurgy, electrochemistry, thermodynamics, and solution chemistry. He excels in designing and optimizing chemical separation processes, especially for the extraction and recycling of strategic metals such as lithium, uranium, and rare earth elements. His expertise includes both experimental techniques and computational modeling, enabling him to understand and predict complex chemical interactions at molecular and process levels. He is skilled in thermodynamic analysis, solvent extraction, and the development of eco-efficient recycling technologies. Additionally, his experience in nuclear chemistry adds depth to his technical versatility. Prof. Chagnes’s ability to lead interdisciplinary projects, manage industrial collaborations, and oversee scientific platforms such as HydroVAL further demonstrates his strong organizational and strategic research capabilities. His extensive publication record and leadership in large research networks reflect both his technical proficiency and his commitment to advancing innovative and sustainable chemical processes.

Conclusion💡

Prof. Alexandre Chagnes is an exceptionally qualified candidate for the Best Researcher Award.
His consistent and impactful contributions to hydrometallurgy, battery recycling, and separation science—combined with his leadership in national and international scientific communities—underscore his suitability. He exemplifies the criteria of scientific excellence, innovation, leadership, and real-world impact. With minor improvements in global strategic collaboration and public-facing science initiatives, his profile would be near-ideal for even the most prestigious research honors.

Publications Top Noted✍

  • Title: Interphase chemistry of Si electrodes used as anodes in Li-ion batteries
    Authors: C. Pereira-Nabais, J. Światowska, A. Chagnes, F. Ozanam, A. Gohier, et al.
    Year: 2013
    Citations: 179

  • Title: Imidazolium-organic solvent mixtures as electrolytes for lithium batteries
    Authors: A. Chagnes, M. Diaw, B. Carré, P. Willmann, D. Lemordant
    Year: 2005
    Citations: 166

  • Title: Guidelines to design organic electrolytes for lithium-ion batteries: environmental impact, physicochemical and electrochemical properties
    Authors: B. Flamme, G.R. Garcia, M. Weil, M. Haddad, P. Phansavath, et al.
    Year: 2017
    Citations: 162

  • Title: XPS, XRD and SEM characterization of a thin ceria layer deposited onto graphite electrode for application in lithium-ion batteries
    Authors: J. Światowska, V. Lair, C. Pereira-Nabais, G. Cote, P. Marcus, A. Chagnes
    Year: 2011
    Citations: 144

  • Title: Modeling viscosity and conductivity of lithium salts in γ-butyrolactone
    Authors: A. Chagnes, B. Carré, P. Willmann, D. Lemordant
    Year: 2002
    Citations: 122

  • Title: Recent advances on electrodialysis for the recovery of lithium from primary and secondary resources
    Authors: S. Gmar, A. Chagnes
    Year: Not specified
    Citations: Not specified in the input

 

Fateh Ullah | Chemistry | Best Paper Award

Published on by Global Scholar Awards

Dr. Fateh Ullah | Chemistry | Best Paper Award

Research Assistant Professor at Westlake University, China

Dr. Fateh Ullah, currently serving as a Research Assistant Professor at Westlake University, is a highly deserving candidate for the Best Paper Award. His research focuses on semiconducting materials, photovoltaics, and resistive memory devices, with a particular emphasis on memristor technology. He has made notable contributions, including the development of TiOx-based memristors with the lowest switching voltage reported and Ohmic behavior in both resistance states—an innovation that marks a significant advancement in the field. His work has already earned recognition with a Best Paper Award from Chinese Chemical Letters in 2018. With 16 SCI/Scopus-indexed publications, active involvement in high-impact projects, and authorship of book chapters and patents, Dr. Ullah’s research output is both prolific and impactful. His recent explorations into chirality-induced perovskite quantum dot memory arrays further showcase his commitment to pioneering research. Dr. Ullah’s achievements position him as an exceptional candidate for this prestigious award.

Professional Profile 

Education🎓

Dr. Fateh Ullah holds a strong academic background in chemistry and materials science. He began his higher education journey in Pakistan, earning both his M.Sc and MS degrees in Organic Chemistry in 2008 and 2011, respectively. Driven by a passion for advanced research, he pursued and completed his Ph.D. in Chemistry at Zhejiang University, China, in 2017. His doctoral research laid the foundation for his future work in semiconducting materials and device fabrication. Following his Ph.D., Dr. Ullah engaged in postdoctoral research at Shanghai Jiao Tong University, where he expanded his expertise in advanced materials and nanotechnology. He then continued postdoctoral work at Westlake University, focusing on cutting-edge developments in memory devices and neurotechnology. In 2021, he was appointed as a Research Assistant Professor at CenBRAIN Neurotech, Westlake University. His diverse academic journey across multiple leading institutions has provided him with a deep, interdisciplinary understanding essential for impactful scientific innovation.

Professional Experience📝

Dr. Fateh Ullah has amassed significant professional experience in the fields of chemistry, materials science, and device engineering. After completing his Ph.D. in Chemistry at Zhejiang University in 2017, he began his postdoctoral research at Shanghai Jiao Tong University, where he focused on advanced functional materials and nanotechnology applications. He later continued his postdoctoral work at Westlake University, contributing to high-impact projects in neurotechnology and memory devices. Since 2021, Dr. Ullah has been serving as a Research Assistant Professor at CenBRAIN Neurotech, Westlake University, where he leads and collaborates on interdisciplinary research projects. His work spans the development of semiconducting materials for solar cells, ultrafast communication systems, and innovative resistive memory devices. Notably, he played a key role in two major research projects focused on vaccine screening platforms and memristor-based biosensing, funded by prestigious Chinese institutions. His professional journey reflects a strong commitment to research excellence and technological innovation.

Research Interest🔎

Dr. Fateh Ullah’s research interests lie at the intersection of advanced materials science and electronic device engineering. He is particularly focused on the development and characterization of semiconducting materials—organic, inorganic, and oxide-based—for applications in next-generation electronic and energy devices. His work emphasizes the design and fabrication of high-performance solar cells, ultrafast communication systems, and resistive memory devices, particularly memristors. A key area of his research explores the electrical and optical properties of functional materials to enhance device efficiency, reliability, and scalability. He is also actively investigating neuromorphic and bioelectronic systems, including memristor-based arrays for biosensing and memory applications. Recently, his research has expanded to include chiral perovskite quantum dots for memory devices, highlighting his interest in combining nanotechnology with functional device applications. Dr. Ullah’s interdisciplinary approach integrates chemistry, materials science, and electrical engineering to address challenges in energy storage, brain-inspired computing, and biomedical sensor technologies.

Award and Honor🏆

Dr. Fateh Ullah has received notable recognition for his impactful contributions to materials science and device engineering. Among his most distinguished honors is the Best Paper Award from Chinese Chemical Letters in 2018, which highlighted the significance and innovation of his research in organic functional materials for perovskite solar cells. This award underscores his ability to produce high-quality, peer-recognized scientific work in competitive research areas. In addition to this accolade, Dr. Ullah has been entrusted with leading roles in major research projects funded by the National Natural Science Foundation of China (NSFC) and the Research Center for the Industries of the Future at Westlake University, reflecting institutional recognition of his scientific vision and leadership. His name appears on two published patents related to biomedical and memristor technologies, further showcasing his innovative edge. These honors reflect his growing reputation as a forward-thinking researcher committed to advancing science and technology on a global scale.

Research Skill🔬

Dr. Fateh Ullah possesses a comprehensive set of research skills that span material synthesis, device fabrication, and advanced characterization techniques. He is highly skilled in developing organic, inorganic, and oxide-based semiconducting materials for applications in energy and electronic devices. His expertise includes thin-film deposition, nanomaterial processing, and the fabrication of devices such as solar cells and memristors. Dr. Ullah is proficient in using advanced tools such as scanning electron microscopy (SEM), atomic force microscopy (AFM), and electrical measurement systems to analyze device performance and material properties. He has strong experience in designing and implementing experimental setups for resistive switching studies and memory device evaluation. Additionally, he demonstrates strong competencies in research proposal writing, data interpretation, and collaborative project management. His ability to integrate chemistry, materials science, and electrical engineering allows him to address complex research problems with innovative solutions. These skills have contributed significantly to his publication and patent achievements.

Conclusion💡

Highly Suitable for the Best Paper Award. Dr. Fateh Ullah demonstrates a proven track record of innovative, high-quality research with previous recognition and ongoing contributions to frontier areas of materials science. His work’s originality, real-world applicability, and scientific value align well with the expectations for this award category.

Publications Top Noted✍️

  • Z Deng, M He, Y Zhang, F Ullah, K Ding, J Liang, Z Zhang, H Xu, Y Qiu, …
    Year: 2020
    Citation: 78
    Title: Design of low crystallinity spiro-typed hole transporting material for planar perovskite solar cells to achieve 21.76% efficiency
    Journal: Chemistry of Materials 33 (1), 285–297

  • F Ullah, N Deng, F Qiu
    Year: 2021
    Citation: 52
    Title: Recent progress in electro-optic polymer for ultra-fast communication
    Journal: PhotoniX 2, 1–18

  • F Ullah, H Chen, CZ Li
    Year: 2017
    Citation: 31
    Title: Organic functional materials based buffer layers for efficient perovskite solar cells
    Journal: Chinese Chemical Letters 28 (3), 503–511

  • F Ullah, CC Chen, WCH Choy
    Year: 2021
    Citation: 30
    Title: Recent developments in organic tandem solar cells toward high efficiency
    Journal: Advanced Energy and Sustainability Research 2 (4), 2000050

  • C Ye, F Xu, F Ullah, M Wang
    Year: 2022
    Citation: 18
    Title: CdS/Ti3C2 heterostructure–based photoelectrochemical platform for sensitive and selective detection of trace amount of Cu2+
    Journal: Analytical and Bioanalytical Chemistry 414 (12), 3571–3580

  • A Khan, U Farooq, F Ullah, J Iqbal, AF Khan, S Zaib, AR Khan, A Azarpira
    Year: 2014
    Citation: 13
    Title: Determination of biological activities and total phenolic contents of flowers of Jasminum humile and roots of Dorema aucheri
    Journal: Journal of the Chemical Society of Pakistan 36 (2), 291–295

  • F Ullah, S Qian, W Yang, MN Shah, Z Zhang, H Chen, CZ Li
    Year: 2017
    Citation: 10
    Title: Donor-acceptor (DA) terpolymers based on alkyl-DPP and t-BocDPP moieties for polymer solar cells
    Journal: Chinese Chemical Letters 28 (12), 2223–2226

  • MN Shah, S Zhang, Q Sun, F Ullah, H Chen, CZ Li
    Year: 2017
    Citation: 8
    Title: Narrow bandgap semiconducting polymers for solar cells with near-infrared photo response and low energy loss
    Journal: Tetrahedron Letters 58 (30), 2975–2980

  • MS Zina Fredj, Pengbo Wang, Fateh Ullah
    Year: 2023
    Citation: 7
    Title: A nanoplatform‑based aptasensor to electrochemically detect epinephrine produced by living cells
    Journal: Microchimica Acta 190 (343)

  • H Yu, X Sun, G Liu, U Fateh, D Ban, N Deng, F Qiu
    Year: 2021
    Citation: 7
    Title: Gas environment independent temperature sensor via double-metal surface plasmon resonance
    Journal: Optics Express 29 (10), 15393–15402

  • S Thankaraj Salammal, J Chen, F Ullah, H Chen
    Year: 2015
    Citation: 6
    Title: Effects of material morphology on the performance of organic electronics
    Journal: Journal of Inorganic and Organometallic Polymers and Materials 25, 12–26

  • F Ullah, M Tarkhan, Z Fredj, Y Su, T Wang, M Sawan
    Year: 2023
    Citation: 3
    Title: A stable undoped low-voltage memristor cell based on Titania (TiOx)
    Journal: Nano Express 5 (1), 015003