Celal Duran | Analytical Chemistry | Best Researcher Award

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Prof. Dr. Celal Duran | Analytical Chemistry | Best Researcher Award

professor at Karadeniz Technical University, Turkey

Prof. Dr. Celal Duran is a distinguished Turkish chemist with an extensive academic and research career at Karadeniz Technical University, Trabzon. His work spans more than three decades, focusing on environmental chemistry, analytical techniques, and sustainable materials. Throughout his career, he has combined rigorous scientific inquiry with a strong commitment to solving real-world problems, particularly in water pollution, trace element analysis, and waste valorization. Prof. Duran has contributed significantly to the development of innovative methods for the preconcentration and determination of heavy metals, adsorption processes, and biosorption technologies. His leadership in numerous national and international projects has advanced scientific knowledge while addressing pressing environmental challenges. Beyond research, he has held key academic and administrative positions, including serving as Director of major university research centers. Prof. Duran’s prolific publication record, mentorship of young researchers, and impactful contributions have established him as a respected figure in chemistry, both nationally and internationally.

Professional Profile 

Prof. Dr. Celal Duran pursued his entire higher education in chemistry at Karadeniz Technical University (KTU), Trabzon, Turkey. He earned his undergraduate degree in Chemistry laying a solid foundation in both theoretical and experimental sciences. Driven by a passion for research, he continued at KTU for postgraduate studies, completing his Master’s degree in Chemistry . His master’s thesis focused on the investigation of liquid–liquid equilibria in the extraction of acetic acid from aqueous solutions using various solvents, highlighting his early interest in separation techniques. Duran then pursued a doctorate at the same university. His doctoral research centered on the analysis of trace elements using atomic absorption spectrometry (AAS) after preconcentration with XAD-2000 resin, an area that would shape much of his later career in analytical and environmental chemistry. His academic journey reflects consistent dedication to advancing knowledge in chemical sciences.

Experience 

Prof. Dr. Celal Duran has built a progressive and impactful academic career at Karadeniz Technical University. He began as a Research Assistant in the Department of Chemistry , a role he held for a decade while completing his doctoral studies. He advanced to Research Assistant Doctor and later served as Lecturer Doctor . His dedication to teaching and research excellence earned him an appointment as Assistant Professor, followed by Associate Professor. He achieved the rank of Full Professor, recognizing his outstanding contributions to research and education. Beyond teaching, Prof. Duran has taken on leadership responsibilities, such as serving as Director of the Fuel Application and Research Center and the Central Research Laboratory Application and Research Center. His career reflects a strong balance of teaching, research, and administrative leadership in advancing the field of chemistry.

Professional Development

Prof. Dr. Celal Duran’s professional development reflects continuous growth through academic advancement, collaborative projects, and leadership roles. His career has been shaped by participation in numerous research projects funded by institutions such as Karadeniz Technical University and TÜBİTAK. These projects covered diverse topics including water pollution analysis, heavy metal contamination, adsorption techniques, biomonitoring, and sustainable material production. Through these experiences, he has refined expertise in experimental design, environmental analysis, and application of advanced analytical methods. Duran has also actively contributed to the academic community by supervising postgraduate students, publishing extensively in international journals, and presenting at both national and international conferences. His professional development is further demonstrated by his service as director of major research centers, where he fostered interdisciplinary collaboration and supported innovation in applied chemistry. These milestones highlight his dedication to lifelong learning, capacity-building, and the translation of scientific research into practical environmental solutions.

Skills & Expertise

Prof. Dr. Celal Duran possesses a broad range of skills and expertise rooted in analytical and environmental chemistry. His primary expertise lies in trace element analysis, particularly through atomic absorption spectrometry (AAS) and related preconcentration techniques. He has extensive experience in adsorption, biosorption, and the preparation of low-cost sorbents from natural and waste materials for pollutant removal. His research demonstrates strong skills in method development for the determination of toxic metals in complex environmental matrices. In addition, he has significant expertise in water pollution monitoring, biomonitoring using plants, and designing remediation strategies for contaminated ecosystems. His technical skills are complemented by project management, scientific writing, and the ability to lead multidisciplinary collaborations. Duran’s knowledge extends to applied fields such as activated carbon production, nanocomposites, and environmental risk mapping. His expertise has consistently contributed to advancing green chemistry solutions for pollution control, making him a valuable leader in environmental analytical science.

Resarch Focus

Prof. Dr. Celal Duran’s research focuses primarily on environmental and analytical chemistry, with special emphasis on trace metal analysis and pollution remediation. A major theme of his work is the development of innovative preconcentration and separation techniques for toxic metals, often employing atomic absorption spectrometry (AAS). He has conducted extensive studies on adsorption and biosorption, exploring the use of natural biomass, industrial by-products, and biochar-based materials as low-cost, sustainable sorbents for removing pollutants from water and food samples. His research extends to water quality monitoring, heavy metal mapping, and the evaluation of biomonitor plants for environmental assessment. Duran has also explored nanomaterials and functional composites for improving sorption efficiency. His projects reflect a strong commitment to sustainable solutions addressing environmental challenges. Overall, his research integrates analytical method development with practical applications in pollution control, ensuring relevance to both scientific progress and environmental protection.

Awards & Recognitions

Prof. Dr. Celal Duran has received multiple awards and recognitions throughout his career, highlighting his scientific excellence and professional leadership. His achievements include successful completion of numerous funded projects by Karadeniz Technical University, Gümüşhane University, and TÜBİTAK, underscoring the recognition of his expertise by prestigious institutions. He has been entrusted with leading roles such as Project Manager and Advisor in several high-impact studies, including research on water quality, environmental monitoring, and trace element analysis. His appointment as Director of both the Fuel Application and Research Center and the Central Research Laboratory Application and Research Center reflects institutional recognition of his leadership and contributions. Additionally, his promotion through all academic ranks—from Research Assistant to Full Professor—demonstrates consistent acknowledgment of his scholarly accomplishments. His extensive publication record in international peer-reviewed journals and active participation in global conferences further stand as testaments to his recognized impact within the scientific community.

Publication Top Notes 

Title: Removal of phenol from aqueous solutions by adsorption onto organomodified Tirebolu bentonite: Equilibrium, kinetic and thermodynamic study
Authors: HB Senturk, D Ozdes, A Gundogdu, C Duran, M Soylak
Year: 2009
Citations: 577

Title: Kinetics, thermodynamics and equilibrium evaluation of direct yellow 12 removal by adsorption onto silver nanoparticles loaded activated carbon
Authors: M Ghaedi, B Sadeghian, AA Pebdani, R Sahraei, A Daneshfar, C Duran
Year: 2012
Citations: 341

Title: Kinetics and Isotherm Analysis of Basic Dyes Adsorption onto Almond Shell (Prunus dulcis) as a Low Cost Adsorbent
Authors: C Duran, D Ozdes, A Gundogdu, HB Senturk
Year: 2011
Citations: 323

Title: Adsorption of phenol from aqueous solution on a low-cost activated carbon produced from tea industry waste: equilibrium, kinetic, and thermodynamic study
Authors: A Gundogdu, C Duran, HB Senturk, M Soylak, D Ozdes, H Serencam, …
Year: 2012
Citations: 285

Title: Adsorptive removal of Cd (II) and Pb (II) ions from aqueous solutions by using Turkish illitic clay
Authors: D Ozdes, C Duran, HB Senturk
Year: 2011
Citations: 283

Title: Biosorption of Pb (II) ions from aqueous solution by pine bark (Pinus brutia Ten.)
Authors: A Gundogdu, D Ozdes, C Duran, VN Bulut, M Soylak, HB Senturk
Year: 2009
Citations: 255

Title: Biosorption of Rhodamine 6G from aqueous solutions onto almond shell (Prunus dulcis) as a low cost biosorbent
Authors: HB Senturk, D Ozdes, C Duran
Year: 2010
Citations: 254

Title: Solid-phase extraction of Mn (II), Co (II), Ni (II), Cu (II), Cd (II) and Pb (II) ions from environmental samples by flame atomic absorption spectrometry (FAAS)
Authors: C Duran, A Gundogdu, VN Bulut, M Soylak, L Elci, HB Senturk, M Tüfekci
Year: 2007
Citations: 251

Title: Physicochemical characteristics of a novel activated carbon produced from tea industry waste
Authors: A Gundogdu, C Duran, HB Senturk, M Soylak, M Imamoglu, Y Onal
Year: 2013
Citations: 235

Title: Removal of Pb (II) ions from aqueous solution by a waste mud from copper mine industry: equilibrium, kinetic and thermodynamic study
Authors: D Ozdes, A Gundogdu, B Kemer, C Duran, HB Senturk, M Soylak
Year: 2009
Citations: 223

Title: Removal of fluoride ions from aqueous solution by waste mud
Authors: B Kemer, D Ozdes, A Gundogdu, VN Bulut, C Duran, M Soylak
Year: 2009
Citations: 163

Title: Chemical and Antioxidant Properties of Laurocerasus officinalis Roem. (Cherry Laurel) Fruit Grown in the Black Sea Region
Authors: S Kolayli, M Küçük, C Duran, F Candan, B Dinçer
Year: 2003
Citations: 162

Title: Assessment of metal element concentrations in mussel (M. galloprovincialis) in Eastern Black Sea, Turkey
Authors: U Cevik, N Damla, AI Kobya, VN Bulut, C Duran, G Dalgıç, R Bozacı
Year: 2008
Citations: 146

Title: A multi-element solid-phase extraction method for trace metals determination in environmental samples on Amberlite XAD-2000
Authors: VN Bulut, A Gundogdu, C Duran, HB Senturk, M Soylak, L Elci, M Tufekci
Year: 2007
Citations: 145

Title: Separation and enrichment of gold (III) from environmental samples prior to its flame atomic absorption spectrometric determination
Authors: HB Senturk, A Gundogdu, VN Bulut, C Duran, M Soylak, L Elci, M Tufekci
Year: 2007
Citations: 142

Prof. Dr. Celal Duran is highly suitable for the Best Researcher Award. His distinguished publication record, leadership in research projects, mentorship of young scientists, and consistent contributions to environmental sustainability position him as a leading researcher with strong international recognition. With strategic enhancement of interdisciplinary collaborations and global outreach, he can further consolidate his standing as a world-class researcher.

Jeffrey Amelse | Environmental Chemistry | Best Researcher Award

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Dr. Jeffrey Amelse | Environmental Chemistry | Best Researcher Award

Invited Contributor at University of Aveiro, Portugal

Dr. Jeffrey A. Amelse is an accomplished chemical engineer, researcher, and educator with a distinguished career spanning academia and industry. He earned his Ph.D. in Chemical Engineering from Northwestern University and went on to make significant contributions to catalysis, molecular sieves, petrochemical process design, and carbon sequestration technologies. With over three decades at BP Amoco Chemical Company, he played a pivotal role in developing and commercializing advanced paraxylene technologies, molecular sieve catalysts, and innovative process designs that remain influential in the petrochemical sector. Following his industrial career, he transitioned to academia as an Invited Teaching Professor at the University of Aveiro in Portugal, where he continues to shape the future of energy, catalysis, and sustainability through teaching and research. Currently, as Lead Scientist at Carbon Sequestration, Inc., he pioneers low-cost, natural methods for carbon dioxide removal. His legacy reflects a rare blend of industrial leadership, academic excellence, and innovation.

Professional Profile 

Dr. Amelse’s academic foundation in chemical engineering is marked by rigorous training and a passion for applied research. He earned his Bachelor of Science in Chemical Engineering from the University of Illinois at Urbana-Champaign. He then pursued graduate studies at Northwestern University, obtaining his Master of Science in Chemical Engineering followed by a Ph.D. His doctoral research, under Professors John Butt and Lyle Schwartz, focused on “Silica Supported Iron Bimetallic Catalysts for the Fischer-Tropsch Synthesis,” combining catalyst characterization with performance evaluation—a project that reflected his early interest in bridging fundamental chemistry with industrial applications. Beyond formal degrees, he pursued numerous continuing education courses throughout his career, covering refining, petrochemicals, and biofuels. This extensive educational background not only equipped him with technical expertise but also laid the groundwork for his later innovations in catalysis, petrochemical processes, and sustainable energy technologies, enabling him to contribute across academia and industry.

Experience 

Dr. Amelse’s professional journey integrates high-level industrial leadership, academic teaching, and cutting-edge research. At BP Amoco Chemical Company, he was a core team member in designing world-scale paraxylene crystallization units, developing next-generation catalysts, and leading U.S. Department of Energy–sponsored projects on ammonia absorption refrigeration. He also guided international collaborations, including projects in Belgium, India, Portugal, and the UK, making significant contributions to global petrochemical technology. After retiring from BP Amoco, he joined the University of Aveiro as an Invited Teaching Professor, lecturing on biofuels, refining, and petrochemicals while contributing to molecular sieve research using solid-state NMR. Currently, he serves as Lead Scientist at Carbon Sequestration, Inc., leading commercialization of woody biomass burial for carbon dioxide removal. His experience highlights a career that bridges innovation, teaching, and sustainability, demonstrating his ability to drive transformative advances across both industrial and academic landscapes.

Professional Development

Throughout his career, Dr. Amelse actively pursued professional development to remain at the forefront of chemical engineering and energy research. At BP Amoco, he became a trained leader in HAZOP and LOPA safety analysis techniques, guiding critical plant safety design studies. He also served as an instructor for internal technical courses on paraxylene catalysis and process technologies, reflecting his commitment to knowledge transfer within industry. His collaborations with leading universities, including Cambridge University and the University of Aveiro, provided opportunities to mentor graduate students and postdoctoral researchers, strengthening academia-industry ties. More recently, he expanded his expertise into renewable energy and climate solutions, developing a micro-module on Global Warming, Renewable Energy, and Decarbonization for the European Consortium of Innovative Universities. His continual engagement with new technologies, from biofuels to biomass carbon sequestration, exemplifies lifelong learning and adaptation. This pursuit of professional growth underscores his leadership in advancing energy innovation and sustainability.

Skills & Expertise

Dr. Amelse possesses a rare combination of technical, analytical, and leadership skills in catalysis, process design, and sustainable energy solutions. He is recognized as an expert in molecular sieve synthesis and characterization, having applied advanced techniques such as solid-state NMR to study catalytic materials. His proficiency in ASPEN process simulation and HTRI heat exchanger design software enabled him to lead complex petrochemical process designs with strong economic and technical insight. He also has deep expertise in the aromatics marketplace, including paraxylene process technologies, competitive benchmarking, and licensing strategies. In addition to technical mastery, he is skilled in safety leadership through HAZOP and LOPA methodologies, ensuring safe and efficient operations. His teaching and mentoring roles highlight his ability to translate complex scientific concepts into practical applications. Today, his expertise extends into biomass burial technologies for carbon sequestration, making him a versatile innovator in both conventional petrochemicals and emerging sustainable energy fields.

Resarch Focus

Dr. Amelse’s research has consistently advanced the frontiers of catalysis, petrochemicals, and sustainable energy. His early work focused on catalyst development and reactor modeling for xylene isomerization and paraxylene production, where he pioneered molecular sieve catalyst characterization and design methodologies still in use today. He contributed to the development of novel catalysts for dehydrogenation, transalkylation, and isomerization processes, resulting in patents that improved energy efficiency and selectivity in petrochemical operations. In academia, his research shifted toward renewable energy, exploring biofuels from cellulosic biomass and molecular sieve applications in green chemistry. Currently, his focus lies in carbon sequestration, specifically the commercialization of woody biomass burial as a low-cost and natural method for carbon dioxide removal. His work also explores catalytic oxidation of biomethane and novel bio-aromatic conversion processes. By integrating catalysis, process design, and climate solutions, his research exemplifies innovation at the intersection of chemical engineering and sustainability.

Awards & Recognitions

Dr. Amelse’s career achievements have been recognized through numerous grants, patents, and scholarly contributions. While at BP Amoco, he received special grants from the Head of Technology and the Distributed Research Laboratory to sponsor advanced academic collaborations at the University of Aveiro and Cambridge University. His patents—spanning paraxylene recovery, catalyst design, refrigeration systems, and biomass conversion—demonstrate his innovation and impact, with technologies implemented at industrial scale. His process for recovering germanium from optical fiber effluents, developed at Bell Labs, was notable enough to be featured in The New York Times. In academia, his contributions to climate education were recognized through his development of a European Consortium module on global warming and sustainability. His publications in leading journals, chapters in Industrial Arene Chemistry, and invited lectures further highlight his influence. Collectively, these recognitions underscore his reputation as a pioneering researcher, mentor, and innovator in chemical engineering and sustainability.

Publication Top Notes 

Title: A European Consortium of Innovative Universities Micromodule on Global Warming, Renewable Energy, and Decarbonization
Authors: J.A. Amelse
Year: 2025

Title: Terrestrial Storage of Biomass (Biomass Burial): A Natural, Carbon-Efficient, and Low-Cost Method for Removing CO₂ from Air
Authors: J.A. Amelse
Year: 2025

Title: BP/Amoco Paraxylene Crystallization Technology
Authors: J.A. Amelse
Year: 2023

Title: Reactions and Mechanisms of Xylene Isomerization and Related Processes
Authors: J.A. Amelse
Year: 2023

Title: Sequestering Biomass for Natural, Carbon Efficient, and Low-Cost Direct Air Capture of Carbon Dioxide
Authors: J.A. Amelse, P.K. Behrens
Year: 2022

Dr. Amelse is a highly deserving candidate for the Best Researcher Award. His lifelong contributions to catalysis, petrochemicals, renewable energy, and carbon sequestration reflect both depth and breadth of expertise. His patents and publications demonstrate originality and industrial impact, while his teaching and mentoring underscore his role in shaping future scientists. Although further visibility of his research impact metrics (citations, h-index) and a stronger articulation of future directions could enhance his case, his record already places him among the leading researchers globally.

Yumin Qian | Computational Chemistry | Chemical Scientist Award

Published on by Chemical Scientist

Dr. Yumin Qian | Computational Chemistry | Chemical Scientist Award

associate professor at Beijing Institute of technology, China.

Dr. Yumin Qian is an accomplished physicist and researcher specializing in solid-state physics, electrochemistry, and materials computation. He currently serves as an Associate Professor at the School of Physics, Beijing Institute of Technology, where he continues to contribute significantly to the advancement of energy materials and electrochemical systems. With a strong academic foundation and extensive international research experience, Dr. Qian has established himself as a prominent figure in the fields of energy storage and conversion. His career trajectory spans research appointments in China, Japan, and the United States, providing him with a global perspective on scientific collaboration and innovation. Dr. Qian’s research is primarily focused on surface and interface electrochemistry, as well as material simulations for advanced batteries and catalytic systems. His dedication to developing sustainable energy technologies has positioned him as a leading scientist whose work bridges theoretical modeling and experimental application in modern materials science.

Professional Profile 

Dr. Yumin Qian began his academic journey in physics at HuaZhong University of Science and Technology (HUST), Wuhan, China, where he earned his Bachelor’s degree. His undergraduate studies laid a strong foundation in physics, inspiring him to pursue advanced research in solid-state physics. Following this, he was admitted to the prestigious Institute of Physics, Chinese Academy of Sciences (CAS), where he pursued both his Master’s and Ph.D. degrees . At CAS, Dr. Qian trained at the Laboratory of Condensed Matter Theory and Materials Computation, gaining expertise in computational physics, materials modeling, and condensed matter theory. His doctoral research emphasized the theoretical and computational aspects of materials science, particularly as applied to electrochemical energy systems. This rigorous academic training at one of China’s leading scientific institutions provided him with advanced skills in solid-state physics and material simulations, forming the basis of his future career in electrochemical materials research.

Experience 

Dr. Yumin Qian possesses a rich and diverse professional background that spans academia and advanced research institutes worldwide. After completing his Ph.D., he joined the Fuel Cell Cutting-Edge Center Technology Research Association (FC-Cubic) Ltd. in Tokyo, Japan, as a Research Scientist, where he worked on innovative fuel cell technologies. He also served as a Senior Researcher at the Energy Technology Research Institute, National Institute of Advanced Industrial Science and Technology (AIST), Tsukuba, Japan, deepening his expertise in energy technologies. His international research trajectory continued with postdoctoral appointments at Soochow University and the Texas Materials Institute at the University of Texas at Austin, focusing on materials for electrochemical energy storage. In 2021, he joined the School of Physics at Beijing Institute of Technology as an Associate Professor. His career reflects a consistent commitment to advancing electrochemical energy storage and conversion technologies.

Professional Development

Throughout his career, Dr. Yumin Qian has consistently engaged in professional development through international collaborations, interdisciplinary research, and academic appointments. His early postdoctoral research experiences at Soochow University and the University of Texas at Austin allowed him to expand his knowledge beyond theoretical materials physics into applied energy storage systems. These opportunities helped him to integrate advanced computational techniques with experimental investigations, strengthening his interdisciplinary approach. His time at FC-Cubic and AIST in Japan further honed his expertise in industrial and applied research, bridging the gap between fundamental physics and real-world energy technologies. At Beijing Institute of Technology, Dr. Qian continues to develop his academic leadership by mentoring students, publishing scholarly works, and participating in global research initiatives. His professional growth reflects a trajectory of continuous learning, skill enhancement, and adaptation to evolving scientific challenges, ensuring his relevance and contribution to both academic and industrial advancements in energy materials.

Skills & Expertise

Dr. Yumin Qian’s expertise lies at the intersection of solid-state physics, materials science, and electrochemistry. He has advanced skills in surface and interface electrochemistry, with a focus on the mechanisms that drive energy storage and conversion. His proficiency in material simulation and computational modeling allows him to predict, design, and optimize materials for next-generation batteries, catalysts, and energy conversion devices. Dr. Qian’s research extends across multiple electrochemical systems, including lithium, sodium, and magnesium batteries, as well as catalytic systems involving electro-, photo-, plasma-, and thermo-catalysis. His international work experience has equipped him with strong cross-cultural collaboration skills, while his academic positions highlight his teaching and mentoring abilities. Combining theoretical insight with practical application, Dr. Qian demonstrates strong analytical, problem-solving, and research leadership skills. His expertise in both computational and experimental approaches makes him a versatile scientist capable of addressing complex challenges in energy technology and sustainable materials research.

Resarch Focus

Dr. Yumin Qian’s research is primarily dedicated to advancing electrochemical energy storage and conversion technologies. His work emphasizes surface and interface electrochemistry, where he investigates the fundamental processes governing energy device performance and stability. By employing state-of-the-art material simulation techniques, he explores the atomic-level interactions and electronic structures that influence electrochemical reactions. His studies extend to catalytic systems, including electro-, photo-, plasma-, and thermo-catalysis, aiming to improve the efficiency and sustainability of energy conversion. Dr. Qian also focuses on the design and optimization of electrode materials for lithium, sodium, and magnesium batteries, addressing the growing demand for safe, high-capacity, and cost-effective energy storage solutions. His integrated approach bridges computational modeling with experimental insights, enabling the development of innovative materials that can meet the challenges of clean energy. This research focus highlights his commitment to sustainable technologies and his role in shaping the future of energy science.

Awards & Recognitions

While specific awards and recognitions are not explicitly listed in Dr. Yumin Qian’s CV, his professional trajectory reflects notable accomplishments and recognition in his field. Earning positions at internationally respected institutions such as the Chinese Academy of Sciences, AIST in Japan, and the University of Texas at Austin demonstrates the high regard in which his expertise is held. His appointment as an Associate Professor at Beijing Institute of Technology is itself a recognition of his academic and research contributions to physics and materials science. Furthermore, his publication record, as reflected in his Google Scholar profile, underscores his influence and visibility within the scientific community. His participation in global research projects and collaborations indicates recognition by peers and institutions that value his expertise. Collectively, his academic appointments, international research experience, and contributions to electrochemical materials science serve as implicit acknowledgments of his standing as a respected researcher in the field.

Publication Top Notes 

Title: Defect engineering metal‐free polymeric carbon nitride electrocatalyst for effective nitrogen fixation under ambient conditions
Authors: C Lv, Y Qian, C Yan, Y Ding, Y Liu, G Chen, G Yu
Year: 2018
Citations: 807

Title: Dual tuning of Ni–Co–A (A= P, Se, O) nanosheets by anion substitution and holey engineering for efficient hydrogen evolution
Authors: Z Fang, L Peng, Y Qian, X Zhang, Y Xie, JJ Cha, G Yu
Year: 2018
Citations: 516

Title: Polyanthraquinone as a reliable organic electrode for stable and fast lithium storage
Authors: Z Song, Y Qian, ML Gordin, D Tang, T Xu, M Otani, H Zhan, H Zhou, …
Year: 2015
Citations: 480

Title: O-coordinated W-Mo dual-atom catalyst for pH-universal electrocatalytic hydrogen evolution
Authors: Y Yang, Y Qian, H Li, Z Zhang, Y Mu, D Do, B Zhou, J Dong, W Yan, Y Qin, …
Year: 2020
Citations: 431

Title: Enhanced Surface Interactions Enable Fast Li+ Conduction in Oxide/Polymer Composite Electrolyte
Authors: N Wu, PH Chien, Y Qian, Y Li, H Xu, NS Grundish, B Xu, H Jin, YY Hu, …
Year: 2020
Citations: 384

Title: Poly (benzoquinonyl sulfide) as a high‐energy organic cathode for rechargeable Li and Na batteries
Authors: Z Song, Y Qian, T Zhang, M Otani, H Zhou
Year: 2015
Citations: 352

Title: A quinone-based oligomeric lithium salt for superior Li–organic batteries
Authors: Z Song, Y Qian, X Liu, T Zhang, Y Zhu, H Yu, M Otani, H Zhou
Year: 2014
Citations: 309

Title: Sulfurized polyacrylonitrile cathodes with high compatibility in both ether and carbonate electrolytes for ultrastable lithium–sulfur batteries
Authors: X Wang, Y Qian, L Wang, H Yang, H Li, Y Zhao, T Liu
Year: 2019
Citations: 279

Title: Study of the lithium/nickel ions exchange in the layered LiNi0.42Mn0.42Co0.16O2 cathode material for lithium ion batteries: experimental and first-principles calculations
Authors: H Yu, Y Qian, M Otani, D Tang, S Guo, Y Zhu, H Zhou
Year: 2014
Citations: 255

Title: Bridging Interparticle Li+ Conduction in a Soft Ceramic Oxide Electrolyte
Authors: WP Chen, H Duan, JL Shi, Y Qian, J Wan, XD Zhang, H Sheng, B Guan, …
Year: 2021
Citations: 222

Title: New Insights into Improving Rate Performance of Lithium-Rich Cathode Material
Authors: Y Wang, Z Yang, Y Qian, L Gu, H Zhou
Year: 2015
Citations: 221

Title: Multifunctional active‐center‐transferable platinum/lithium cobalt oxide heterostructured electrocatalysts towards superior water splitting
Authors: X Zheng, P Cui, Y Qian, G Zhao, X Zheng, X Xu, Z Cheng, Y Liu, SX Dou, …
Year: 2020
Citations: 212

Title: Room‐temperature all‐liquid‐metal batteries based on fusible alloys with regulated interfacial chemistry and wetting
Authors: Y Ding, X Guo, Y Qian, L Xue, A Dolocan, G Yu
Year: 2020
Citations: 171

Title: Polar polymer–solvent interaction derived favorable interphase for stable lithium metal batteries
Authors: J Bae, Y Qian, Y Li, X Zhou, JB Goodenough, G Yu
Year: 2019
Citations: 169

Title: An Ultrastable Anode for Long‐Life Room‐Temperature Sodium‐Ion Batteries
Authors: H Yu, Y Ren, D Xiao, S Guo, Y Zhu, Y Qian, L Gu, H Zhou
Year: 2014
Citations: 169

Overall, Dr. Yumin Qian is highly suitable for the Research for Chemical Scientist Award. His interdisciplinary expertise, impactful publications, international collaborations, and contributions to energy storage and conversion technologies make him an outstanding candidate. With further emphasis on global leadership roles, technology translation, and broader recognition, he could elevate his profile even more. Nonetheless, his current achievements already place him among the most promising and influential chemical scientists of his generation, and he is well-deserving of this recognition.

cristina fornacelli | Spectroscopy | Chemical Scientist Award

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Dr. cristina fornacelli | Spectroscopy | Chemical Scientist Award

Research fellow, CNR-IFAC, Italy.

Cristina Fornacelli, Ph.D., is an Italian researcher specializing in archaeometry and the scientific study of cultural heritage materials. She has built a distinguished career through her expertise in applying advanced spectroscopic, imaging, and mineralogical techniques to the analysis of ceramics, glass, manuscripts, and historical artifacts. Her work has contributed significantly to the understanding of artistic and archaeological materials, ranging from medieval pottery and stained glass to illuminated manuscripts. With research experiences spanning prestigious institutions in Italy and abroad—including Northwestern University (Chicago), Université Pierre et Marie Curie (Paris), and the Victoria & Albert Museum (London)—she has developed a strong international profile. Cristina has collaborated with leading experts on projects funded by major research programs, such as the ERC nEU-Med project, and has authored numerous publications in high-impact journals. Her research bridges science and cultural heritage, advancing preservation strategies for artworks and historical objects.

Professional Profile 

Cristina Fornacelli’s academic path reflects her deep dedication to cultural heritage science. She earned her B.Sc. in Sciences applied to Cultural Heritage Conservation and Restoration from the University of Florence, graduating magna cum laude with a thesis on the thermo-hygrometric behavior of wooden panels in paintings. She continued at the University of Florence, completing an M.Sc. in Science for Cultural Heritage with a thesis on medieval illuminated manuscripts, achieving a score of 107/110. She was awarded an International Ph.D. in Earth Sciences from the University of Pisa, with a dissertation on the technological developments in glass production during the Art Nouveau period, focused on Chini glassworks. Her doctoral work combined spectroscopy and material science to uncover innovative aspects of early 20th-century glassmaking. Through her academic training, Cristina acquired a robust multidisciplinary foundation, blending physics, chemistry, earth sciences, and art conservation into a cohesive expertise.

Experience 

Cristina Fornacelli has accumulated extensive professional experience in cultural heritage research, primarily at the University of Siena and IFAC-CNR. She has held multiple research fellowships and grants focusing on the archaeometric study of ceramics, glass, and manuscripts. Her work includes investigations of medieval pottery from Tuscany, Etruscan ceramics, early medieval stained glass, and purple codices, using spectroscopic and imaging methods. She contributed to the ERC nEU-Med project, analyzing pottery and ceramic circulation in Central Italy, and collaborated on studies of glass tesserae from Siena’s Cathedral and Palazzo Pubblico. Beyond academia, she has provided scientific consulting for conservation projects involving historic palaces, Roman kilns, and polychrome terracotta sculptures. Internationally, Cristina has conducted research stays in France, Portugal, the UK, and the USA, applying advanced techniques such as Raman spectroscopy, hyperspectral imaging, and LA-ICP-MS. Her experience demonstrates a balance of laboratory expertise, archaeological fieldwork, and applied conservation science.

Professional Development

Cristina Fornacelli has consistently enhanced her professional profile through advanced training, international research placements, and participation in specialized schools. She completed research stages at NU-ACCESS, Northwestern University (Chicago), focusing on hyperspectral imaging and LA-ICP-MS for stained glass, and at MONARIS Laboratories, Université Pierre et Marie Curie (Paris), where she deepened her expertise in Raman spectroscopy of colored glasses. At Vicarte Centre, Lisbon, she studied late 19th-century glass recipes, complementing her doctoral research. Earlier, she gained professional experience at the Victoria & Albert Museum (London), conducting chemical analyses of historical materials, and at Editech s.r.l. (Florence), applying multispectral diagnostics in cultural heritage. She also trained at the University of Florence’s Wood Technologies Department in panel painting conservation. In addition, Cristina has attended prestigious schools, including the 12th School on Synchrotron Radiation in Grado, Italy. Her continuous professional development reflects her commitment to integrating cutting-edge scientific methods with heritage conservation.

Skills & Expertise

Cristina Fornacelli possesses a broad technical skill set in archaeometry and cultural heritage diagnostics. She is highly proficient in spectroscopic methods such as Raman, UV-Vis-NIR, and Fiber Optic Reflectance Spectroscopy (FORS), as well as hyperspectral imaging for non-invasive analysis of artworks. Her expertise extends to X-ray fluorescence (XRF), SEM-EDX, TEM, ICP-AES, and XRD, allowing her to perform in-depth chemical and structural characterizations of historical materials. She is skilled in petrographic microscopy for mineralogical analysis and applies multivariate statistical methods (PCA, cluster analysis) to interpret complex datasets. Her IT proficiency includes MATLAB, Python, ImageJ, and specialized spectroscopy software. Cristina’s expertise lies in bridging laboratory science with field investigations, offering diagnostic solutions for ceramics, glass, pigments, manuscripts, and architectural materials. This blend of advanced analytical competence and contextual interpretation makes her a valuable contributor to both academic research and applied conservation projects across Europe and internationally.

Resarch Focus

Cristina Fornacelli’s research focuses on the scientific investigation of cultural heritage materials, combining spectroscopy, imaging, and archaeometric methods to study their composition, technology, and degradation. Her main interests include the analysis of ancient ceramics, from Etruscan and medieval pottery to early glazed ware, to reconstruct production techniques, trade, and circulation patterns. She also specializes in the study of glass materials, from Art Nouveau stained glass to Roman and medieval tesserae, with particular emphasis on the role of nanomaterials and transition metal complexes in coloring. Recently, she has advanced research on purple codices and illuminated manuscripts, exploring organic dyes and their interaction with environmental factors. Cristina’s approach integrates non-invasive diagnostics with laboratory-based analyses, aiming to develop sustainable strategies for conservation and preservation. Her multidisciplinary focus bridges archaeology, materials science, and conservation, contributing to a deeper understanding of cultural artifacts and their historical significance.

Awards & Recognitions

Throughout her career, Cristina Fornacelli has received several awards and distinctions recognizing her scientific achievements. She was awarded a grant to conduct research at Northwestern University (Chicago) and the Art Institute of Chicago (NU-ACCESS), where she applied state-of-the-art techniques to historical stained glass. She has also been selected to attend competitive international schools and conferences, including the 12th School on Synchrotron Radiation and the Congresso congiunto SIMP-AIV-SoGeI , both reserved for promising young scientists. Her research project on nanocrystalline phases in historical glass was accepted for advanced beamline analysis at the Argonne National Laboratory’s APS in Chicago, further highlighting the scientific relevance of her work. Cristina has also presented her findings at prestigious international conferences such as the International Symposium of Archaeometry (USA, Mexico, Portugal, Greece) and other global forums, reinforcing her reputation as an emerging leader in archaeometric research.

Publication Top Notes 

Cristina Fornacelli is a strong candidate for the Research for Chemical Scientist Award, particularly given her expertise in applying cutting-edge chemical and spectroscopic techniques to the study of cultural heritage materials. Her research blends chemistry, materials science, and cultural preservation, highlighting chemistry’s societal impact. To maximize competitiveness, she could emphasize citations, broader chemical applications, and leadership roles in future projects. Overall, her profile aligns well with the award’s mission of recognizing impactful and innovative contributions to chemical sciences.

samaneh Barani Pour | Physical Chemistry | Chemistry Breakthrough Award

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Dr. samaneh Barani Pour | Physical Chemistry | Chemistry Breakthrough Award

azarbaijan shahid madani university,Iran.

Samaneh Baranipour is a dedicated Ph.D. candidate in Physical Chemistry at the Molecular Simulation Laboratory, Faculty of Basic Sciences, Azarbaijan Shahid Madani University, Iran. In Khorramabad, Lorestan, she has cultivated a strong academic foundation and research expertise in both computational and experimental physical chemistry. Her work spans molecular dynamics simulations, density functional theory computations, and phase equilibrium measurements, with a particular interest in green solvents such as natural deep eutectic solvents. Samaneh has authored multiple peer-reviewed publications in high-impact journals and presented her findings at national and international conferences. She has also contributed as a workshop lecturer, sharing her knowledge of molecular simulations with the scientific community. Known for her precision, persistence, and passion for advancing sustainable chemical processes, she continues to pursue innovative research that bridges theory and experiment, aiming to develop eco-friendly solutions with practical industrial and pharmaceutical applications.

Professional Profile 

Samaneh Baranipour began her academic journey in Pure Chemistry at the Islamic Azad University, Khorramabad Branch, graduating with a bachelor’s degree. She then pursued a Master’s degree in Physical Chemistry at Malayer University. Her M.Sc. thesis, titled “The investigation of adsorption of nitramide molecule on the surface of pristine and Ni-functionalized gallium nitride nanotubes by computational methods,” demonstrated her early engagement with computational modeling. Building on this foundation, she embarked on her Ph.D. in Physical Chemistry at Azarbaijan Shahid Madani University, specializing in molecular simulation. Her doctoral research integrates computational and experimental approaches to explore molecular interactions, phase equilibria, and the design of green solvents, particularly natural deep eutectic solvents. This strong academic progression has provided her with comprehensive expertise in theoretical modeling, experimental measurements, and advanced computational chemistry, equipping her to contribute significantly to sustainable and innovative solutions in the chemical sciences.

Experience 

Samaneh Baranipour has accumulated extensive research experience in computational and experimental physical chemistry, with a focus on molecular dynamics simulations, density functional theory, and phase equilibrium studies. Her professional journey includes conducting advanced simulations to understand molecular interactions in green solvents, particularly natural deep eutectic systems, and analyzing their structural and dynamic properties. She has contributed to multiple high-impact publications, investigating topics such as hydrophobic and hydrophilic eutectic solvents, terpene–fatty acid interactions, and the effects of molecular composition on solvent behavior. Samaneh has presented her work at national and international scientific conferences, including the Iranian Seminar of Organic Chemistry and the International Chemistry Congress. Additionally, she has served as a workshop lecturer, training participants in molecular dynamic simulations using the NAMD package. Her experience reflects a balance between fundamental theoretical studies and practical applications, making her a versatile researcher with a strong command of both academic and applied chemistry environments.

Professional Development

Samaneh Baranipour has actively engaged in professional development to enhance her research skills and scientific contributions. She has participated in workshops and seminars that broadened her expertise in molecular simulation, nanotechnology, and green chemistry. Notably, she attended a promotional seminar introducing nanotechnology at Azarbaijan Shahid Madani University , which expanded her perspective on nanomaterials. She served as a lecturer in a workshop titled “Molecular dynamic simulation of green novel solvents using NAMD package” during the 21st ICS International Chemistry Congress, sharing her knowledge with fellow researchers. She has also presented her research findings at national and international conferences, which strengthened her scientific communication skills and professional network. Through these engagements, Samaneh has developed competencies in advanced computational techniques, interdisciplinary collaboration, and knowledge dissemination, ensuring she remains at the forefront of developments in computational chemistry, green solvent design, and sustainable chemical process research.

Skills & Expertise

Samaneh Baranipour possesses a diverse skill set that bridges computational chemistry, experimental techniques, and scientific communication. She is highly proficient in molecular dynamics simulations, density functional theory computations, and the analysis of complex molecular systems. Her expertise extends to phase equilibrium measurements, enabling her to investigate fluid-phase behaviors and extraction processes for valuable biomolecules and pharmaceuticals. She has substantial knowledge in designing and characterizing natural deep eutectic solvents, both hydrophilic and hydrophobic, for environmentally friendly applications. Samaneh is adept at using specialized computational tools, including NAMD, for simulating molecular interactions. Her laboratory skills complement her computational proficiency, allowing her to integrate theoretical modeling with experimental validation. Beyond technical expertise, she is skilled in scientific writing, data interpretation, and delivering impactful presentations at academic forums. Her ability to work across theoretical and practical domains positions her as a well-rounded researcher in physical chemistry and sustainable material development.

Resarch Focus

Samaneh Baranipour’s research focuses on advancing sustainable chemistry through the integration of computational modeling and experimental analysis. A central theme of her work is the design, characterization, and optimization of green solvents, particularly natural deep eutectic solvents (NADES). She investigates their structural and dynamic properties using molecular dynamics simulations, aiming to enhance their applications in pharmaceutical extraction, biomolecule recovery, and environmentally friendly chemical processes. Her studies also explore the role of hydrophobic and hydrophilic solvent components, fatty acid chain length, and terpene-based mixtures in influencing solvent behavior. Additionally, she has applied density functional theory to study molecular adsorption and interactions on nanostructured surfaces, contributing to the understanding of nanoscale material–molecule interactions. By combining computational predictions with experimental validation, Samaneh seeks to develop novel, efficient, and eco-friendly solvent systems that can replace conventional hazardous solvents, aligning her research with global goals for sustainable and green chemistry innovation.

Awards & Recognitions

Throughout her academic journey, Samaneh Baranipour has earned recognition for her contributions to physical chemistry research. Her work has been published in reputable international journals such as Journal of Molecular Liquids, Fluid Phase Equilibria, ChemistrySelect, and Scientific Reports, reflecting the high quality and scientific impact of her research. She has been invited to present at major conferences, including the Iranian Seminar of Organic Chemistry, the National Conference on Advanced Research in Chemistry and Chemical Engineering, and the International Chemistry Congress, where her presentations were well-received by peers and experts. Additionally, her role as a workshop lecturer on molecular dynamics simulations at an international event underscores her recognition as an emerging expert in computational chemistry and green solvent research. These achievements not only highlight her research excellence but also her commitment to advancing sustainable chemistry and fostering knowledge exchange within the global scientific community.

Publication Top Notes 

Samaneh Baranipour’s research is highly relevant to current scientific and societal needs, with strong originality in green chemistry and computational modeling. She demonstrates the intellectual capacity, technical expertise, and innovative mindset necessary for a Chemistry Breakthrough Award. While expanding her global research network, citation profile, and industry connections could further solidify her candidacy, her current achievements already make her a competitive and credible nominee.

Hongwei Zhou | Organic Synthesis | Chemical Scientist Award

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Prof. Hongwei Zhou | Organic Synthesis | Chemical Scientist Award

Vice President, Jiaxing University,China.

Hongwei Zhou,  is a distinguished Professor of Chemistry and Vice President of Jiaxing University. He earned his Master’s degree in Applied Chemistry from Hunan University  and completed his Ph.D. in Organic Chemistry at Zhejiang University . Following a postdoctoral fellowship at McMaster University in Canada, he was appointed Associate Professor at Zhejiang University , later recognized as a “Qiushi Young Scholar”  and selected as a Doctoral Supervisor . He joined Jiaxing University as Academic Leader of Pharmaceutical Engineering, subsequently serving as Vice Dean and Dean of the School of Biochemistry and Molecular Biology.  He became Director of the Science and Technology Department and Dean of the Science and Technology Research Institute. A prolific scholar, Professor Zhou has led over ten major research projects, published more than 100 SCI papers, and holds 16 patents in organic and pharmaceutical synthesis.

Professional Profile 

Professor Hongwei Zhou’s academic journey began with a strong foundation in chemistry. He obtained his Master’s degree in Applied Chemistry from the School of Chemistry and Chemical Engineering, Hunan University. His master’s research provided him with a deep understanding of applied chemical principles, fostering his interest in advanced organic synthesis. He then pursued a Doctorate in Organic Chemistry at the Department of Chemistry, Zhejiang University. His doctoral work equipped him with expertise in organic synthesis methodologies, pharmaceutical chemistry, and advanced laboratory techniques. Following his Ph.D., he expanded his academic horizons internationally by conducting postdoctoral research at McMaster University in Canada . This international experience enriched his research perspective, exposing him to cutting-edge techniques and collaborative projects. This robust educational background laid the groundwork for his subsequent academic leadership, research accomplishments, and contributions to organic chemistry and pharmaceutical engineering.

Experience 

Professor Zhou’s professional career is marked by progressive academic and administrative roles.  After completing his postdoctoral research, he was appointed Associate Professor at Zhejiang University, where he also served as a Doctoral Supervisor. His outstanding contributions earned him the title of “Qiushi Young Scholar”.  He joined Jiaxing University, where he became the Academic Leader of Pharmaceutical Engineering and a member of the Academic Committee. His leadership expanded as he took on the role of Vice Dean and later Dean of the School of Biochemistry and Molecular Biology. He was appointed Director of the Science and Technology Department and Dean of the Science and Technology Research Institute. His strategic vision and academic leadership culminated in his appointment as Vice President of Jiaxing University . Throughout his career, he has balanced high-level administration with impactful research and teaching.

Professional Development

Professor Zhou’s professional development reflects continuous advancement in research, leadership, and academic governance. His early career growth was marked by his transition from postdoctoral research at McMaster University to an Associate Professorship at Zhejiang University, where he deepened his research in organic synthesis and pharmaceutical chemistry. His recognition as a “Qiushi Young Scholar”  and selection as a Doctoral Supervisor demonstrated his academic excellence and mentorship capabilities. Upon joining Jiaxing University , he broadened his scope, leading pharmaceutical engineering programs and contributing to academic committee governance. His leadership trajectory continued as Vice Dean  and later Director of the Science and Technology Department and Dean of the Science and Technology Research Institute . His appointment as Vice President further cemented his role as a key figure in institutional development. His career embodies a commitment to integrating research innovation with educational leadership.

Skills & Expertise

Professor Zhou possesses extensive expertise in organic synthesis methodology, pharmaceutical synthesis, and applied chemistry. His technical proficiency spans synthetic route design, reaction mechanism studies, and the development of novel pharmaceutical compounds. He is highly skilled in leading interdisciplinary research teams, managing large-scale scientific projects, and fostering academic collaborations both domestically and internationally. His leadership skills extend to strategic planning, higher education administration, and research policy formulation. With over 100 SCI-indexed publications, he demonstrates exceptional scholarly writing and scientific communication abilities. Additionally, he holds 16 authorized patents, reflecting his innovation in translating research into practical applications. His expertise also encompasses grant acquisition, having successfully led projects funded by the National Natural Science Foundation of China, the Ministry of Education, and provincial science foundations. Combining deep technical knowledge with proven administrative capabilities, Professor Zhou stands out as both a scientific innovator and an academic leader.

Resarch Focus

Professor Zhou’s research primarily centers on organic synthesis methodology and pharmaceutical synthesis. He investigates the development of efficient, sustainable synthetic routes for bioactive compounds, aiming to improve pharmaceutical production processes and drug design. His work integrates fundamental organic chemistry with applied pharmaceutical engineering, bridging the gap between laboratory innovation and industrial application. He explores reaction mechanisms to enhance selectivity, yield, and scalability, contributing to both academic understanding and practical utility. Beyond synthetic chemistry, his projects often address challenges in medicinal chemistry, such as the creation of novel molecular scaffolds for therapeutic agents. Many of his research endeavors are collaborative, involving cross-disciplinary partnerships and international cooperation. With over 100 SCI publications and numerous funded projects from national and provincial agencies, his research has significantly impacted the fields of chemical methodology and drug development, positioning him as a leading figure in pharmaceutical-oriented organic synthesis.

Awards & Recognitions

Throughout his career, Professor Zhou has received multiple honors that recognize his scientific achievements and leadership. He was awarded the prestigious title of “Qiushi Young Scholar,” acknowledging his exceptional contributions to research at an early stage in his career. His academic stature was further affirmed when he was appointed as a Doctoral Supervisor at Zhejiang University. His expertise and impact have been reinforced through consistent success in securing competitive research grants, including funding from the National Natural Science Foundation of China, the Ministry of Education, the Zhejiang Provincial Natural Science Foundation, and the Zhejiang Provincial Outstanding Youth Fund. Additionally, his record of over 100 SCI-indexed publications and 16 authorized patents has earned him recognition within both academic and industrial sectors. His appointments to key leadership positions, including Vice President of Jiaxing University, further attest to his reputation as a respected scholar, innovator, and administrator.

Publication Top Notes 

Title: O-Acylation Triggered γ-Umpolung Functionalization of Electron-Poor Alkenyl Sulfoxides for the Synthesis of 3-Allyl Indoles
Journal: Organic & Biomolecular Chemistry
Year: 2025
DOI: 10.1039/D5OB00112A
Authors: Wenjie Wei; Qiangrong Xie; Xiaoyu Li; Yuanyuan Xie; Hongwei Zhou

Title: Synthesis and Biological Activity of Novel Polyazaheterocyclic Derivatives of Quinine
Journal: Molecules
Year: 2025
DOI: 10.3390/molecules30153301
Authors: Gulim K. Mukusheva; Nurizat N. Toigambekova; Roza B. Seidakhmetova; Roza I. Jalmakhanbetova; Mukhlissa N. Babakhanova; Oralgazy A. Nurkenov; Ekaterina A. Akishina; Evgenij A. Dikusar; Irina A. Kolesnik; Hongwei Zhou; et al.

Title: Atroposelective N-Allylic Alkylation Enables Construction of Axially Chiral Arylimidazoles
Journal: Organic Letters
Year: 2025
DOI: 10.1021/acs.orglett.5c01977
Authors: Yangyang Wang; Kexin Chen; Hongwei Zhou; Xingkuan Chen; Jianfeng Xu

Title: A Three-Dimensional Fractional Calculus-Based Creep Model for Granite Considering Thermal Effects
Journal: International Journal of Applied Mechanics
Year: 2025
DOI: 10.1142/S175882512550036X
Authors: Teng Su; Zelin Liu; Hongwei Zhou; Hairuo Wang; Xiaotian Hu; Feng Zhang

Title: Mechanochemical Enantiospecific Syntheses of Sulfonimidate Esters and Sulfonimidamides by Various S(VI) Exchange Reactions
Journal: ChemistryEurope
Year: 2025
DOI: 10.1002/ceur.202500006
Authors: Shashank Tripathi; Sidharam P. Pujari; Manoah Romkes; Fedor M. Miloserdov; Hongwei Zhou; Han Zuilhof

Title: Reductive Deuteration of Aldehydes/Ketones for the Synthesis of Monodeuterated Phosphinates and Derivatives Using D₂O as the Nucleophilic Deuterium Source
Journal: The Journal of Organic Chemistry
Year: 2025
DOI: 10.1021/acs.joc.5c00235
Authors: Xiaochen Niu; Yuanyuan Xie; Hongwei Zhou

Professor Hongwei Zhou’s record demonstrates excellence in research, innovation, and academic leadership, making him an exemplary candidate for the Research for Chemical Scientist Award. His achievements in organic synthesis methodology, pharmaceutical synthesis, and catalytic chemistry, coupled with strong leadership and technology transfer, align perfectly with the award’s objectives. With further emphasis on expanding international collaborations and interdisciplinary projects, he could strengthen his already impressive global profile. Overall, he is a highly deserving nominee whose work significantly advances the chemical sciences both in theory and application.

Shang-Fu Yuan | Inorganic Chemistry | Chemical Scientist Award

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Prof. Shang-Fu Yuan | Inorganic Chemistry | Chemical Scientist Award

Professor, Jinan University,China.

Dr. Shang-Fu Yuan is a distinguished chemist specializing in structural and materials chemistry, with significant contributions to the design, synthesis, and characterization of ligand-protected metal nanoclusters. In China, he earned his B.S. in Applied Chemistry from East China Jiaotong University and later completed his Ph.D. in Physical Chemistry (Structural Chemistry) under Prof. Quan-Ming Wang at Xiamen University. Following postdoctoral research at Tsinghua University, he joined Jinan University as a Professor at the College of Chemistry and Materials Science and the Guangdong Provincial Key Laboratory of Functional Supramolecular Coordination Materials and Applications. His research spans metal nanoclusters, layered organic metal chalcogenides, and photocatalysis for energy and environmental applications. With over 25 high-impact publications in journals such as JACS, Angewandte Chemie, and Nature Communications, Dr. Yuan is recognized for advancing atomic-level understanding in catalysis and optoelectronics through precise molecular design and advanced crystallographic analysis.

Professional Profile 

Dr. Shang-Fu Yuan began his academic journey at the School of Basic Science, East China Jiaotong University, where he obtained his B.S. degree in Applied Chemistry. His undergraduate studies provided a strong foundation in chemical principles and laboratory techniques, sparking his interest in structural chemistry and functional materials. He then pursued his doctoral studies at the College of Chemistry and Chemical Engineering, Xiamen University, under the supervision of Prof. Quan-Ming Wang. He specialized in Physical Chemistry, with a focus on Structural Chemistry, exploring the synthesis and crystallographic analysis of ligand-protected metal nanoclusters. His Ph.D. research laid the groundwork for his expertise in atomic-precision design of materials for catalysis and optoelectronic applications. After earning his doctorate, he continued his scientific training as a Postdoctoral Fellow in the Department of Chemistry at Tsinghua University, further refining his skills in advanced structural analysis and molecular engineering.

Experience 

Dr. Shang-Fu Yuan’s professional career reflects a trajectory of academic excellence and impactful research in chemistry. He served as a Postdoctoral Fellow at the Department of Chemistry, Tsinghua University, working under Prof. Quan-Ming Wang, where he investigated ligand-protected metal nanoclusters and their catalytic applications. He joined Jinan University as a Professor in the College of Chemistry and Materials Science and became a key member of the Guangdong Provincial Key Laboratory of Functional Supramolecular Coordination Materials and Applications. In this role, he leads research projects funded by the National Natural Science Foundation of China and institutional grants, focusing on atomic-level material design, photocatalytic energy conversion, and layered metal chalcogenides. Dr. Yuan’s leadership extends to mentoring graduate students, managing interdisciplinary collaborations, and contributing to international scientific discourse through publications in top-tier journals and presentations at leading chemistry conferences worldwide.

Professional Development

Throughout his career, Dr. Shang-Fu Yuan has consistently engaged in professional development to expand his scientific expertise and leadership skills. His postdoctoral fellowship at Tsinghua University was instrumental in honing advanced crystallographic techniques and applying them to the design of high-performance catalytic nanoclusters. As a faculty member at Jinan University, he has secured multiple competitive research grants, including from the National Natural Science Foundation of China, enabling him to establish a productive and innovative research group. Dr. Yuan actively collaborates with leading scientists nationally and internationally, fostering cross-disciplinary research in photocatalysis, nanomaterials, and structural chemistry. He stays at the forefront of scientific advancements by participating in international conferences, peer-reviewing manuscripts for high-impact journals, and engaging in academic exchanges. His dedication to continuous learning and collaborative networking has positioned him as an influential researcher and mentor in the field of functional nanomaterials and advanced coordination chemistry.

Skills & Expertise

Dr. Shang-Fu Yuan’s skills and expertise encompass a broad spectrum of chemistry and materials science, with a specialization in atomic-precision synthesis and structural characterization of metal nanoclusters. He is highly proficient in single-crystal X-ray diffraction analysis, enabling detailed structural elucidation at the molecular level. His research extends to layered organic metal chalcogenides, ligand engineering, and the design of photocatalysts for energy conversion and environmental remediation. Dr. Yuan possesses advanced skills in molecular design, coordination chemistry, and catalysis, particularly in the context of visible-light-driven reactions. His expertise also covers the integration of nanomaterials into functional devices and the investigation of charge transfer mechanisms. With a proven track record of publishing in prestigious journals, he demonstrates strong capabilities in scientific writing, data analysis, and project management. Additionally, he is experienced in mentoring young scientists, managing interdisciplinary collaborations, and securing competitive research funding from national and institutional sources.

Resarch Focus

Dr. Shang-Fu Yuan’s research is centered on the design, synthesis, and application of ligand-protected coinage metal clusters and nanoclusters, with a focus on achieving atomic-level control over their structures and properties. He investigates single-crystal X-ray diffraction techniques to reveal precise structural details, which inform the development of high-performance photocatalysts and optoelectronic materials. His work extends to layered organic metal chalcogenides, exploring their potential in energy conversion, photocatalytic reduction, and the transformation of organic molecules under visible light. By integrating structural chemistry with materials science, Dr. Yuan aims to enhance charge transfer efficiency, catalytic activity, and stability in nanomaterials. His research addresses critical challenges in sustainable energy, green synthesis, and environmental remediation. Through interdisciplinary approaches, he seeks to bridge fundamental chemistry with practical applications, contributing to advances in nanotechnology, coordination chemistry, and molecular engineering for next-generation functional materials.

Awards & Recognitions

Dr. Shang-Fu Yuan has received significant recognition for his research excellence and contributions to the field of structural and materials chemistry. His work has been supported by prestigious funding bodies, including the National Natural Science Foundation of China, through multiple grants such as the General Program (22201103) and Joint Funds (U22A20432). He has also been awarded the Initiating Foundation of Jinan University, reflecting institutional recognition of his potential as a research leader. His publications in top-tier journals like Journal of the American Chemical Society, Angewandte Chemie International Edition, and Nature Communications have garnered international attention, further solidifying his reputation. Dr. Yuan’s research achievements have positioned him as an influential figure in nanocluster chemistry, leading to invitations for peer review and collaborative projects. His contributions not only advance scientific understanding but also have practical implications for sustainable catalysis, optoelectronic materials, and environmental applications.

Publication Top Notes 

Conclusion:

Dr. Shang-Fu Yuan is a highly competitive candidate for the Research for Chemical Scientist Award. His outstanding research output, innovation in atomically precise nanocluster design, and leadership in high-profile projects showcase the qualities sought in awardees. With continued emphasis on translating research to societal applications and broadening interdisciplinary collaborations, his profile could evolve from being an excellent award candidate to an undeniable leader in the global chemical sciences community.

Amira Badr | Biochemistry | Best Researcher Award

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Prof. Amira Badr | Biochemistry | Best Researcher Award

Professor of Pharmacology and Toxicology, King Saud University, Saudi Arabia.

Dr. Amira Mohammad Abd Elrahim Mohammad Badr is an Associate Professor of Pharmacology and Toxicology at Ain Shams University, Egypt, and King Saud University, Saudi Arabia. She has over two decades of academic and research experience, having made significant contributions to pharmacological and toxicological sciences. Her expertise spans neuropharmacology, cardiovascular pharmacology, environmental toxicology, and chemotherapy-induced organ toxicity. Dr. Badr has published extensively in high-impact journals and participated in numerous national and international conferences. She has supervised several Master’s and PhD theses and served on thesis examination committees. Her academic excellence has earned her recognition among the world’s top 2% scientists by Stanford University. She is also actively involved in curriculum development, quality assurance, and faculty training programs. In addition to her academic achievements, Dr. Badr has contributed to peer review processes and editorial roles in prestigious journals. Her research continues to impact both scientific knowledge and public health policy.

Professional Profile 

Dr. Amira Badr holds a distinguished academic record in pharmaceutical sciences from Ain Shams University, Cairo, Egypt. She earned her Ph.D. in Pharmaceutical Sciences with a thesis focusing on the pharmacological outcomes of carvedilol and carnitine in treating myocardial infarction in rats. This was preceded by a Master’s degree, where she investigated the hepatoprotective effects of natural products. Her undergraduate education culminated in a Bachelor of Science in Pharmaceutical Sciences , where she graduated with top honors, ranking first among her peers. Throughout her academic journey, Dr. Badr has demonstrated consistent academic excellence, producing impactful research that led to journal publications at each level of study. Her educational background laid a solid foundation for her specialization in pharmacology and toxicology and provided her with critical analytical and experimental skills. These have fueled her passion for academic teaching, mentoring, and cutting-edge biomedical research over the years.

Experience 

Dr. Amira Badr possesses over 20 years of academic experience in pharmacology and toxicology. Her career began  as an instructor at Ain Shams University, followed by roles as an assistant lecturer and lecturer.  she transitioned to King Saud University, where she progressed from Assistant to Associate Professor. Parallel to her roles in Saudi Arabia, she maintained affiliations with Ain Shams University, reflecting her dual academic presence. Dr. Badr has taught numerous undergraduate and postgraduate courses in pharmacology, toxicology, and biochemistry. Her extensive teaching includes advanced topics such as neuropharmacology, pharmacogenomics, and industrial toxicology. She also served as a mentor for numerous graduation projects and supervised multiple Master’s theses. In addition to teaching, she has been involved in quality assurance, scientific committees, and student evaluation processes. Her multifaceted experience spans research leadership, academic governance, and scientific mentorship, demonstrating her deep commitment to both education and biomedical research.

Professional Development

Dr. Amira Badr has pursued comprehensive professional development, undertaking over 25 training courses spanning teaching methodologies, research ethics, scientific writing, technology in education, and leadership. At Ain Shams University, she completed programs on communication skills, teaching effectiveness, research methods, and exam evaluation. Later, she expanded her expertise through advanced courses in e-learning, stress management, sustainable development, and conference organization. At King Saud University, she undertook specialized training in microteaching, capstone course design, and digital tools such as Blackboard, EndNote, and Photoshop. She also completed training in project management and program learning outcome assessments, aligning her work with modern academic standards and national qualification frameworks. Her role as a trainer for new academic staff further illustrates her leadership in academic capacity building. These continued development efforts reflect her dedication to remaining at the forefront of academic excellence and innovation, enhancing both her teaching capabilities and research supervision effectiveness in a dynamic educational environment.

Skills & Expertise

Dr. Amira Badr brings a diverse skill set that spans research, teaching, leadership, and scientific communication. Her core competencies include experimental pharmacology, toxicological assessments, molecular biology techniques, and preclinical models of organ toxicity. She is adept at teaching undergraduate and postgraduate courses, having developed and delivered curricula in basic and advanced pharmacology, clinical toxicology, and pharmacogenomics. She is proficient in scientific writing, manuscript editing, and supervising graduate research, with many students successfully completing their theses under her guidance. Her technical capabilities include using academic platforms like Blackboard, EndNote, and CourseLab. Dr. Badr also demonstrates strong administrative and organizational skills, evident from her roles in academic committees, quality assurance, and faculty training. Her participation in workshops on leadership, time management, digital tools, and e-learning reflects a continuous drive for self-improvement. Her combination of scientific acumen, teaching excellence, and project leadership make her a well-rounded and highly effective academic professional.

Resarch Focus

Dr. Amira Badr’s research is centered on pharmacology and toxicology, with a specialized focus on organ protection from chemotherapy-induced damage, neuropharmacology, cardiovascular pharmacology, and metabolic disorders such as non-alcoholic fatty liver disease. She investigates protective mechanisms of natural compounds and pharmacological agents against oxidative stress, inflammation, and apoptosis in preclinical models. Her research integrates molecular pharmacology, pathophysiology, and experimental toxicology, particularly emphasizing the modulation of signaling pathways like TLR4/NF-κB, Notch, and SIRT1/Nrf2 in disease progression and drug response. She is also engaged in environmental toxicology, exploring the effects of pollutants such as microplastics and heavy metals on organ systems. Her translational approach aims to bridge bench-side discoveries with therapeutic potential. Notably, her recent work has explored drug delivery systems, phytotherapy, and molecular targets in cancer and kidney diseases. Dr. Badr’s holistic and multidisciplinary research positions her at the forefront of pharmacological innovation aimed at safer, more effective therapeutic strategies.

Awards & Recognitions

Dr. Amira Badr has earned notable recognition throughout her academic career. Most prominently, she has been included in Stanford University’s global list of the top 2% of scientists  based on Scopus-indexed data, reflecting her influential contributions to pharmacology and toxicology. With over 1088 citations and an h-index of 16 (Google Scholar), she has demonstrated consistent scholarly impact. She has served as the principal investigator of a research group funded by the Deanship of Scientific Research at King Saud University. Additionally, she holds the position of Academic Editor at Oxidative Medicine and Cellular Longevity and has reviewed over 40 manuscripts for top-tier ISI journals. Her extensive involvement in academic committees, research days, and scientific poster and oral presentations further underscores her leadership and commitment to scientific advancement. These honors validate her reputation as an accomplished researcher and educator in her field, both nationally and internationally.

Publication Top Notes 

Conclusion:

Dr. Amira Badr’s extensive research contributions, recognized scientific impact, and leadership in toxicology and pharmacology make her an outstanding contender for the Best Researcher Award. Her profile aligns strongly with the award’s core criteria: research excellence, originality, societal impact, and mentorship. With continued international collaboration and translational focus, she is poised to make even greater global contributions to biomedical science.

Patrycja Żak | Environmental Chemistry | Women Researcher Award

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Assoc. Prof. Dr. Patrycja Żak | Environmental Chemistry | Women Researcher Award

Associate Professor, UAM Poznań, Poland.

Dr. Patrycja Żak is an Associate Professor in the Department of Organometallic Chemistry at Adam Mickiewicz University in Poznań, Poland. She holds a distinguished academic and research career focused on green chemistry, organometallic synthesis, and functional nanomaterials. With over 47 peer-reviewed publications and 16 patents, her contributions span catalysis, silsesquioxane chemistry, and environmentally friendly synthetic methodologies. A highly respected scientist, she has led multiple national and European research projects and mentored doctoral candidates. Her scientific work emphasizes sustainable practices through the use of organocatalysis and mechanochemistry. Dr. Żak is a collaborative researcher, partnering with international and national institutions to expand the frontiers of materials and inorganic chemistry. Her dedication has earned her a place in prestigious scientific networks and journals as a reviewer and contributing author. Through her innovative and impactful work, Dr. Żak exemplifies excellence in chemical research and its practical application.

Professional Profile 

Dr. Patrycja Żak completed her entire academic education at Adam Mickiewicz University in Poznań, Poland, where she laid the foundation for her scientific journey. She earned her Master of Science degree in Chemistry under the supervision of Prof. Marciniec. Continuing under the same mentor, she pursued and successfully defended her Ph.D. in Chemistry , focusing on advanced organometallic systems. Demonstrating a consistent trajectory of academic growth, she achieved her habilitation at the same institution, a significant milestone in European academia reflecting her independent research capabilities and teaching qualifications. Her educational path reflects a deep commitment to chemical sciences, and her studies were grounded in synthetic and structural chemistry, particularly relating to silicon-based compounds and catalysts. This solid academic base has underpinned her research excellence, enabling her to contribute meaningfully to interdisciplinary fields, particularly in developing green and sustainable chemical methods.

Experience 

Dr. Żak has accumulated over 15 years of academic and research experience at Adam Mickiewicz University. She began her professional career as an adjunct faculty member and was promoted to Associate Professor. Her work has been briefly paused due to maternity leaves and a short health-related hiatus, but she returned to academia with renewed vigor. During her tenure, she has taken on roles beyond teaching and research, including supervising doctoral projects and serving on selection commissions for post-doc and master’s program candidates. She has actively contributed to collaborative research with international scientists and led industry-related projects, such as the development of efficient synthesis methods at AdvaChemLab. Her extensive project portfolio includes national grants like OPUS, SONATA, and MAESTRO, where she served as both investigator and principal investigator. These experiences have shaped her as a leader in her field, merging academic excellence with research innovation and mentorship.

Professional Development

Throughout her career, Dr. Żak has consistently engaged in professional development activities to enhance her academic and research contributions. She is a member of the Polish Chemical Society and has served as a reviewer for prestigious journals such as ChemSusChem, Inorganic Chemistry, and ChemCatChem. She also acted as a tutor in Environmental and Material Chemistry and served on several selection commissions for post-doc and master’s program candidates. Dr. Żak participated as an organizing committee member for the 8th European Silicon Days Conference. Internationally, she broadened her expertise through a six-month research exchange under the Socrates-Erasmus Program in Belgium. She continually refines her skills through leading-edge research projects and supervising doctoral candidates. These roles reflect her commitment to staying at the forefront of chemical science, emphasizing collaborative growth, academic integrity, and leadership in research dissemination, all of which have significantly contributed to her development as an esteemed scientist in organometallic and green chemistry.

Skills & Expertise

Dr. Patrycja Żak possesses an extensive skill set that bridges experimental chemistry, project leadership, and academic mentorship. She is highly proficient in organometallic synthesis, catalysis (particularly organocatalysis), and mechanochemical methods, enabling the development of green and efficient chemical transformations. Her expertise includes the design and functionalization of silicon-based nanomaterials such as silsesquioxanes. She has demonstrated strong abilities in analytical characterization techniques, photophysical studies, and collaborative interdisciplinary research. She effectively manages national and European research grants, showcasing organizational and leadership capabilities. In academia, she is skilled in curriculum development, supervising postgraduate students, and contributing to peer review and academic publishing. Furthermore, her role in organizing international conferences and reviewing for high-impact journals highlights her communication and evaluative skills. Her ability to innovate while adhering to sustainability principles marks her as a skilled and future-ready researcher in both academic and applied chemical sciences.

Resarch Focus

Dr. Patrycja Żak’s primary research focus lies at the intersection of Green Chemistry, Organometallic Chemistry, and Material Chemistry. Her work emphasizes the design of environmentally friendly and sustainable synthetic methods using organocatalysis and mechanochemistry. She is particularly focused on eliminating hazardous solvents and toxic metal-based catalysts by developing N-heterocyclic carbene-catalyzed transformations. Her research also targets the synthesis and functionalization of silsesquioxanes and nanomaterials with well-defined thermal and photochemical properties. Additionally, she explores thioester and heterocycle synthesis from unsaturated aldehydes and other functionalized compounds, contributing to the growing demand for sustainable, efficient chemical pathways. The research she leads aligns with cutting-edge themes in chemical sustainability, structure-property relationships in hybrid materials, and catalyst design for selective transformations. Her projects consistently follow the principles of atom economy and eco-compatibility, placing her work firmly within the green and sustainable chemistry category, with wide applications in pharmaceuticals, materials science, and nanotechnology.

Awards & Recognitions

Dr. Żak’s scientific excellence is reflected in her numerous achievements and recognitions. She has published 47 papers in Scopus-indexed journals, with an additional paper accepted and one under minor revision, showcasing consistent high-quality output. Her work has received over 662 citations in Scopus and 527 in Web of Science, with an h-index of 14, signifying both productivity and scholarly impact. She has authored chapters in scientific books and contributed to academic handbooks, such as the “Laboratory Experiments in Basic Inorganic Chemistry.” Moreover, her innovation has led to 16 patents across multiple jurisdictions including the US, EU, China, and Poland. She has also served as project manager and principal investigator for prestigious national projects including SONATA, POMOST, and OPUS. In addition, she plays a pivotal role in guiding doctoral candidates under Poland’s “Initiative of Excellence” programs. These distinctions underline her commitment to impactful, innovative, and globally relevant chemical research.

Publication Top Notes 

Conclusion:

Overall, Dr. Patrycja Żak is an exceptionally strong candidate for the Women Researcher Award. Her impressive academic productivity, innovation in sustainable chemistry, mentorship record, and project leadership clearly match the criteria for recognizing excellence among women in science. Minor enhancements, such as expanding industrial collaborations and increasing policy outreach, could further amplify her profile in the future. Nonetheless, she fully deserves acknowledgment as a role model inspiring future generations of women scientists working toward a greener and more sustainable world.

Syed Muhammad Zaigham Abbas Naqvi | Nanotechnology | Chemical Scientist Award

Published on by Chemical Scientist

Dr. Syed Muhammad Zaigham Abbas Naqvi | Nanotechnology | Chemical Scientist Award

Post-Doctor, Henan University of Technology, China

Syed Muhammad Zaigham Abbas Naqvi is a dedicated researcher in agricultural engineering with a passion for advancing sustainable agricultural technologies. A native of Pakistan, he is currently pursuing his Ph.D. in Agricultural Engineering at Henan Agricultural University, China, with a focus on nanotechnology-enhanced plant hormone detection. With more than 30 publications in high-impact journals and contributions to multiple international book chapters, he stands out in the field of biosensor development, optical spectroscopy, and smart farming technologies. His professional journey includes academic roles, research assistance, and industry-level agricultural management. Naqvi’s collaborative efforts span globally, including associations with McGill University and the University of Florida. He actively participates in international conferences and workshops and has received recognition for his innovative approaches in precision agriculture and environmental monitoring. With a research impact factor of 109.5 and a Google Scholar h-index of 12, he continues to make significant contributions to science and technology in agriculture.

Professional Profile 

Zaigham’s educational journey reflects a strong interdisciplinary grounding in agricultural sciences and engineering. He began with a B.Sc. (Hons.) in Agriculture from PMAS-Arid Agriculture University Rawalpindi, focusing on plant wearable biosensors. He then earned an M.Sc. (Hons.) in Agronomy from the same university, where his thesis explored remote sensing applications for wheat yield estimation.  He added a diploma in GIS and Remote Sensing from NISTE, Islamabad, sharpening his technological expertise. Currently, he is pursuing a Ph.D. in Agricultural Engineering at Henan Agricultural University, China . His doctoral research centers on using single crystal perovskite nanofiber substrates for SERS-based detection of the plant hormone abscisic acid. His academic focus includes advanced agricultural engineering, micro-processing technologies, and biosensor innovations, positioning him at the forefront of smart agriculture. This blend of plant sciences, engineering, and data analytics underpins his multidimensional research approach.

Experience 

Zaigham brings over a decade of diverse experience across research, academia, and industry. His professional career began with an internship at the National Agriculture Research Council, Islamabad. He served as a Research Assistant at PMAS-Arid Agriculture University, where he contributed to key agronomic research projects. He also lectured at the University Institute of Information Technology . He took on a corporate role as Sales Area Manager at Jaffer Agro Services Pvt. Ltd., providing him with hands-on exposure to the commercial side of agriculture. Most recently, he returned to PMAS-AAUR as a Research Assistant, further strengthening his research acumen. These cumulative experiences, combining academic rigor and fieldwork, have equipped him with the ability to address real-world agricultural challenges using cutting-edge technologies and innovative thinking.

Professional Development

Zaigham has actively pursued professional growth through global conferences, training workshops, and scientific engagements. He presented at leading international forums such as the ICASAST and IWASM in China, highlighting innovations in agricultural sensing technologies. His development also includes specialized training in hydroponics , GIS for agricultural monitoring , and scientific writing . Furthermore, he attended sessions on youth engagement in biodiversity conservation and energy production from biomass. These events not only expanded his technical skills but also fostered his leadership and collaborative abilities. As a peer reviewer for top journals under Elsevier, MDPI, Springer, and PLOS ONE, Zaigham stays engaged with emerging trends in his field. His involvement in multi-disciplinary international collaborations reflects a strong commitment to continuous learning and contributing to global agricultural advancements. This robust professional development portfolio positions him as a proactive and well-rounded researcher committed to excellence.

Skills & Expertise

Zaigham’s skill set reflects a robust integration of theoretical knowledge and practical innovation in agricultural engineering. He is proficient in biosensor development, particularly for hormone detection using SERS and perovskite nanomaterials. His skills extend to optical spectroscopy, fiber Bragg grating sensors, and remote sensing applications for yield estimation. Technologically, he is trained in GIS, AI and machine learning for soil and crop analysis, and data visualization. His fluency in scientific writing and academic publishing is evident from his extensive portfolio of high-impact papers and book chapters. Additionally, he has strong communication and team collaboration skills, having worked in both academic and industry settings. He is experienced in laboratory experiments, field sensor deployment, and interdisciplinary project management. Zaigham also demonstrates excellent presentation skills through his participation in global conferences and webinars. His comprehensive skill set makes him adept at bridging experimental research with scalable agricultural solutions.

Resarch Focus

Zaigham’s research primarily lies in the intersection of smart agriculture, environmental monitoring, and nanotechnology-enhanced biosensing. His current Ph.D. work centers on the surface-enhanced Raman spectroscopy (SERS) detection of abscisic acid using perovskite nanofiber substrates. His broader research interests include optical spectroscopy, biosensors, plant wearable sensors, variable rate technologies, and fiber Bragg grating sensors. He is particularly passionate about using these advanced tools for real-time monitoring of plant hormones, crop health, and environmental pollutants. His work integrates remote sensing, precision agriculture, AI, and IoT to address challenges such as non-point source pollution and crop stress detection. This multidisciplinary approach enables him to contribute to sustainable agriculture through data-driven insights and innovative sensor designs. His research aligns with current global priorities such as food security, climate resilience, and digital transformation in agriculture, making his work highly relevant and impactful in both academic and applied contexts.

Awards & Recognitions

Zaigham has garnered substantial recognition through his high-impact scholarly contributions and global collaborations. His research articles have collectively accumulated an impressive impact factor exceeding 109.5, and he holds a Google Scholar h-index of 12 and Scopus h-index of 9. These metrics underline the influence of his work in agricultural engineering and smart sensing technologies. He has co-authored over 30 peer-reviewed articles and several book chapters in renowned publishing platforms such as Elsevier and Springer. He has been an invited speaker and participant in international conferences, notably in China and Pakistan. Additionally, his role as a reviewer for prestigious journals reflects his standing in the global research community. He has collaborated with international experts from institutions like McGill University and the University of Florida, further enhancing his research profile. These accomplishments signify his outstanding contributions to innovation in sustainable agriculture, making him a distinguished and respected figure in his domain.

Publication Top Notes 

Title: AI and machine learning for soil analysis: an assessment of sustainable agricultural practices
Authors: M Awais, SMZA Naqvi, H Zhang, L Li, W Zhang, FA Awwad, EAA Ismail, …
Journal: Bioresources and Bioprocessing
Citations: 53
Year: 2023

Title: Real time monitoring chlorophyll content based on vegetation indices derived from multispectral UAVs in the kinnow orchard
Authors: MN Tahir, SZA Naqvi, YB Lan, YL Zhang, YK Wang, M Afzal, MJ Cheema
Journal: International Journal of Precision Agricultural Aviation 1(1), 24–31
Citations: 53
Year: 2018

Title: Application of unmanned aerial vehicles in precision agriculture
Authors: MN Tahir, Y Lan, Y Zhang, H Wenjiang, Y Wang, SMZA Naqvi
Journal: Precision Agriculture, pp. 55–70
Citations: 39
Year: 2023

Title: Applied surface enhanced Raman Spectroscopy in plant hormones detection, annexation of advanced technologies: A review
Authors: SMZA Naqvi, Y Zhang, S Ahmed, MI Abdulraheem, J Hu, MN Tahir, …
Journal: Talanta 236, 122823
Citations: 38
Year: 2022

Title:  Real time estimation of leaf area index and groundnut yield using multispectral UAV
Authors: MN Tahir, YB Lan, YL Zhang, YK Wang, F Nawaz, MAA Shah, A Gulzar, …
Journal: International Journal of Precision Agricultural Aviation 3(1), 1–6
Citations: 32
Year: 2020

Title:Ultrasensitive detection of plant hormone abscisic acid-based surface-enhanced Raman spectroscopy aptamer sensor
Authors: Y Zhang, L Li, H Zhang, J Shang, C Li, SMZA Naqvi, Z Birech, J Hu
Journal: Analytical and Bioanalytical Chemistry 414(8), 2757–2766
Citations: 28
Year: 2022

Title: Variable rate technologies: Development, adaptation, and opportunities in agriculture
Authors: SR Saleem, QU Zaman, AW Schumann, SMZA Naqvi
Journal: Precision Agriculture, pp. 103–122
Citations: 27
Year: 2023

Title: Unmanned air vehicle based high resolution imagery for chlorophyll estimation using spectrally modified vegetation indices in vertical hierarchy of citrus grove
Authors: SMZA Naqvi, M Awais, FS Khan, U Afzal, N Naz, MI Khan
Journal: Remote Sensing Applications: Society and Environment 23, 100596
Citations: 21
Year: 2021

Conclusion:

Syed Muhammad Zaigham Abbas Naqvi is a strong candidate for the Research for Chemical Scientist Award. His work in chemical detection, nanomaterials, and analytical techniques is both innovative and impactful. He contributes significantly to interdisciplinary research that applies chemical science to solve real-world problems in agriculture and environmental monitoring. With minor enhancements in framing his research toward core chemical sciences and pursuing translational outputs, he would stand out as an exemplary chemical scientist.