Category: Biography

🔍 Summary of Suitability:

Dr. González’s 2024 paper titled “Food Functional Powders with Redox Capacity and Antioxidant Properties Obtained from Food Losses and Waste of Olive Oil Industry” demonstrates a powerful blend of scientific innovation, sustainability, and applicability. This study directly addresses urgent global concerns such as food waste reduction, valorization of agro-industrial byproducts, and the development of functional foods with health benefits. Her methodology is robust—employing advanced spectroscopic analysis, extraction techniques, and green chemistry principles. The interdisciplinary nature and alignment with the UN Sustainable Development Goals (SDGs) further strengthen the paper’s impact.

📘 Education & Experience

🎓 Pharmaceutical Degree (2013) – National University of the South (UNS), Bahía Blanca
🎓 Specialist in Food Quality Control (2020) – UNS
🎓 Ph.D. in Chemistry (2022) – UNS – Focused on flow techniques and food analysis
🧪 CONICET Assistant Researcher (2023–present) – Vegan capsules & food waste valorization
👩‍🏫 Full-time Teaching Assistant – Dept. of Chemistry, UNS (2023–present)
🏥 Pharmacist (2013–2016) – Including roles at Puerto Belgrano Naval Base and private pharmacies
🧬 Postdoctoral Fellowship (2022–2023) – Analytical research at INQUISUR-CONICET

Professional Development 🚀📖

Dr. Natalia González has continually advanced her professional career through interdisciplinary training and academic engagement. She completed specialized postgraduate courses in analytical micro/nanotechnologies, pharmaceutical materials, spectroscopy, chromatography, and teaching methodologies. Her professional journey includes technical roles in hospitals and pharmacies, and she served as Technical Director at a drugstore. Natalia actively contributes to research through participation in various national and international projects on food science, environmental contaminants, and biodegradable materials. She is a dedicated mentor for undergraduate and graduate students, guiding thesis work and research initiation programs. Her extensive involvement in conferences, workshops, and outreach projects—especially those focused on sustainable and green chemistry—demonstrates her commitment to scientific dissemination and education. She is also engaged in institutional governance and advisory committees, fostering academic collaboration and technological innovation. 📊🌍🔍

Research Focus 🔍🤖

Dr. González’s research lies at the intersection of analytical chemistry, food science, and sustainable technology. Her primary focus is on the development of novel extraction and detection methods for contaminants and antioxidants using flow analysis, solid-phase extraction, and spectroscopic techniques. A significant aspect of her work involves transforming agro-industrial waste—such as olive pomace—into value-added products like antioxidant-rich powders, biodegradable coatings, and vegan capsules. She applies green chemistry principles to enhance food safety and environmental protection. Furthermore, she explores molecularly imprinted polymers, microencapsulation, and automated analytical systems to improve pharmaceutical and food product quality. Her research contributes to the circular economy by minimizing waste and promoting the reuse of natural resources. Her scientific endeavors support cleaner production and innovative materials, making a meaningful impact in food packaging, water remediation, and pharmaceutical applications. 🍇♻️🔬

Awards and Honors 🏆🎖️

🧪 CONICET Doctoral Fellowship (2016–2021) – INQUISUR-UNS
🧫 CONICET Postdoctoral Fellowship (2022–2023) – INQUISUR-UNS
👩‍🔬 Assistant Researcher at CONICET (2023) – For project on vegan food capsules
🧑‍🎓 Scientific Vocation Promotion Scholarship (2023–2024) – Co-director for undergraduate research
🥇 Top Grades in Academic Programs – Ph.D. and Food Quality Specialist degrees (Grade: 10)

Publications & Citations 📚

1. 📖 Food Functional Powders with Redox Capacity and Antioxidant Properties Obtained from Food Losses and Waste of Olive Oil Industry – 🗓️ 2024
  🔁 González N.*, Pacheco C., Grafia A.L., Razuc M.F., Acebal C.C., López O.V.
  📈 Cited by: [citation data not available yet – recent] 🌿🍈🧪
2. 📖 Current trends in sample preparation for the determination of Primary Aromatic Amines in environmental samples – 🗓️ 2023
  🔁 González N., Aguinaga Martínez M.V., Domini C.E., Acebal C.C.
  📈 Cited by: [citation data pending] 🌍💧🔍
3. 📖 Coacervative microextraction for glibenclamide in environmental water samples – 🗓️ 2020
  🔁 Aguinaga Martínez M.V., González N., Acebal C.C., Domini C.E.
  📈 Cited by: 25+ 🌊💊🧫
4. 📖 Inner filter effect sensing system for caffeine in beverages – 🗓️ 2020
  🔁 González N., Lantmann S.P., Zanini G., Montejano H., Acebal C.C.
  📈 Cited by: 30+ ☕🔬📊
5. 📖 Fluorescence determination of glibenclamide in presence of caffeine using low-pressure chromatography – 🗓️ 2018
  🔁 González N., Lantmann S.P., Lista A.G., Acebal C.C.
  📈 Cited by: 15+ 💉📉💡
6. 📖 Flow-batch analysis of clenbuterol using MIPs in urine and milk substitutes – 🗓️ 2018
  🔁 González N., Grünhut M., Šrámková I., Horstkotte B., Solich P., Sklenářová H., Acebal C.C.
  📈 Cited by: 20+ 🧬🥛👩‍🔬

🔍 Conclusion:

Dr. Natalia González’s paper stands out as a model of translational research that is not only methodologically sound but also societally impactful. Her work addresses real-world problems through innovative science and proposes solutions with both industrial and environmental benefits. Given its originality, depth, and relevance, this paper is an excellent candidate for a Best Paper Award. 🌟📘🥇

Basudeb Saha | Green Chemistry | Best Researcher Award

Posted on 13/05/202513/05/2025 by chemical Scientist

Prof. Dr. Basudeb Saha | Green Chemistry | Best Researcher Award

Director of Studies for Chemical Engineering and Associate Director of the Centre for Global Eco-Innovation at Lancaster University, United Kingdom.

Professor Basudeb Saha 🧪 is an internationally acclaimed Chemical Engineering academic with over 26 years of experience in UK higher education 🏛️. Currently serving as the Director of Studies at Lancaster University 🇬🇧, he is recognized for his innovation in green and sustainable technologies 🌿⚗️. With a PhD in Chemical Engineering from the Institute of Chemical Technology, Mumbai 🎓, Prof. Saha has led over 50 research projects and supervised numerous PhD scholars 👨‍🔬👩‍🔬. His scholarly impact includes over 5450 Google Scholar citations 📚 and 7 international patents. A committed leader and educator, he has held visiting professorships across Spain, Japan, and Malaysia 🌍. He was honoured with the “Jewel of India Award” 🏅 for his contributions to Chemical Engineering. His work spans greener process development, carbon capture, and renewable energy solutions ⚡, making him a trailblazer in sustainable engineering.

PROFILE

🔍 Summary of Suitability:

Professor Basudeb Saha brings over 26 years of robust academic and industrial research experience, marked by global recognition and multidisciplinary impact 🌐. He has led more than 50 research projects, co-invented 7 international patents, and published over 215 scholarly works, including 100+ in peer-reviewed journals 📚. His h-index of 39 (Google Scholar) and over 5450 citations testify to his influence in the scientific community 📈. His leadership in projects funded by EPSRC, UKRI, Royal Society, and international agencies demonstrates his ability to conduct world-class research with real-world applications 💡. His research spans green chemistry, renewable energy, carbon capture, and sustainable process engineering—critical to global sustainability challenges 🌍♻️.

📘 Education & Experience

Education

🎓 PhD (Chemical Engineering), Institute of Chemical Technology, Mumbai, India (1996)
🎓 M.E. (Chemical Engineering), Indian Institute of Science, Bangalore, India (1994)
🎓 B.Tech (Chemical Engineering), University of Calcutta, India (1992)

Experience

🧑‍🏫 Director of Studies, Chemical Engineering, Lancaster University, UK (2022–Present)
🧪 Associate Director, Centre for Global Eco-Innovation, Lancaster University
🏅 Honorary Professor, Brunel University London
👨‍🔬 Professor of Chemical Engineering, London South Bank University (2010–2020)
📘 Reader, Senior Lecturer, Lecturer – Loughborough University (1999–2010)
🔬 Postdoctoral Research Associate, Loughborough University (1997–1999)

Professional Development 🚀📖

Professor Saha’s career reflects an unwavering commitment to professional growth and academic excellence 🌟. As a Chartered Engineer (CEng) 🏗️ and Fellow of prestigious institutions such as IChemE, RSC, and HEA 🎖️, he continually contributes to the advancement of Chemical Engineering education and research. He actively serves on multiple editorial boards 📚 and as an accreditation assessor for IChemE, shaping academic standards worldwide. His collaboration across 15+ countries 🌍 and leadership in multi-million-pound research projects (~£11 million) demonstrate his strategic ability to unify academia and industry. He has played key roles in REF submissions, chaired conferences, and mentored numerous early-career researchers 👨‍🏫. From pioneering green process engineering to leading innovative CO₂ conversion studies, Prof. Saha exemplifies proactive professional development through impact-driven initiatives and global outreach 🔬🌐.

Research Focus 🔍🤖

Professor Saha’s research focuses on developing greener, sustainable, and circular chemical processes 🌱🔁. His work is deeply rooted in green chemistry principles and aims to address global environmental challenges through innovative engineering solutions ♻️. Core areas include carbon dioxide capture and utilization (CCU) 🌫️➡️🧪, waste valorisation, renewable energy solutions ☀️, and process intensification such as reactive distillation and membrane separations ⚗️. He also contributes to net-zero carbon emission technologies and low-carbon energy systems 🔋. With over 215 publications and 7 patents, Prof. Saha’s interdisciplinary approach integrates catalysis, process engineering, and sustainability frameworks to deliver real-world impact 🌍. His research has influenced policy, industry, and education across the UK and internationally, including Europe, Asia, and Africa 🌐. Through strong industrial and academic partnerships, he continues to lead high-impact projects on biofuels, epoxidation, and eco-innovations that drive the transition to cleaner, more efficient chemical manufacturing 🔄🌿.

Awards and Honors 🏆🎖️

- 🏅 “Jewel of India” Award by NRI Welfare Society (2020)
- 🧪 Finalist, IChemE Global Awards – Sustainability (2019), Energy (2017), Energy & Resource-poor Tech (2016)
- 🏆 Finalist, IChemE Awards – Core Chemical Engineering & Sustainable Tech (2011)
- 🧠 Brian Mercer Feasibility Award, The Royal Society (£30,000, 2011/2012)
- 🎓 “Young Alumni Award” – University College of Science and Technology, India (2003)
- ⚗️ Research Fellowship – University Grants Commission, India (1992–1996)
- 🥇 Winner – IChemE Fluid Separation Processes Group (1998)
- 🏆 Salters’ Graduate Award for student research projects (2023, 2024)
- 🏅 Multiple best poster awards for PhD students (2019–2020)

Publications & Citations 📚

Title: Surface modification and characterisation of a coal-based activated carbon
Authors: P. Chingombe, B. Saha, R.J. Wakeman
Journal: Carbon, Vol. 43(15), pp. 3132–3143
Citations: 913
Year: 2005
Title: Heterogeneous catalysed esterification of acetic acid with isoamyl alcohol: kinetic studies
Authors: H.T.R. Teo, B. Saha
Journal: Journal of Catalysis, Vol. 228(1), pp. 174–182
Citations: 259
Year: 2004
Title: Sorption of atrazine on conventional and surface modified activated carbons
Authors: P. Chingombe, B. Saha, R.J. Wakeman
Journal: Journal of Colloid and Interface Science, Vol. 302(2), pp. 408–416
Citations: 258
Year: 2006
Title: Sorption of Cr (VI) from aqueous solution by Amberlite XAD-7 resin impregnated with Aliquat 336
Authors: B. Saha, R.J. Gill, D.G. Bailey, N. Kabay, M. Arda
Journal: Reactive and Functional Polymers, Vol. 60, pp. 223–244
Citations: 183
Year: 2004
Title: Recent insights into lignocellulosic biomass pyrolysis: A critical review on pretreatment, characterization, and products upgrading
Authors: Z.E. Zadeh, A. Abdulkhani, O. Aboelazayem, B. Saha
Journal: Processes, Vol. 8(7), Article 799
Citations: 179
Year: 2020
Title: Recovery of dilute acetic acid through esterification in a reactive distillation column
Authors: B. Saha, S.P. Chopade, S.M. Mahajani
Journal: Catalysis Today, Vol. 60(1–2), pp. 147–157
Citations: 174
Year: 2000
Title: Removal of Cr (VI) by solvent impregnated resins (SIR) containing aliquat 336
Authors: N. Kabay, M. Arda, B. Saha, M. Streat
Journal: Reactive and Functional Polymers, Vol. 54(1–3), pp. 103–115
Citations: 173
Year: 2003
Title: Greener synthesis of dimethyl carbonate using a novel ceria–zirconia oxide/graphene nanocomposite catalyst
Authors: R. Saada, S. Kellici, T. Heil, D. Morgan, B. Saha
Journal: Applied Catalysis B: Environmental, Vol. 168, pp. 353–362
Citations: 159
Year: 2015
Title: Effect of surface modification of an engineered activated carbon on the sorption of 2,4-dichlorophenoxy acetic acid and benazolin from water
Authors: P. Chingombe, B. Saha, R.J. Wakeman
Journal: Journal of Colloid and Interface Science, Vol. 297(2), pp. 434–442
Citations: 153
Year: 2006
Title: Causes and consequences of thermal runaway incidents—Will they ever be avoided?
Authors: R. Saada, D. Patel, B. Saha
Journal: Process Safety and Environmental Protection, Vol. 97, pp. 109–115
Citations: 142
Year: 2015
Title: A single rapid route for the synthesis of reduced graphene oxide with antibacterial activities
Authors: S. Kellici, J. Acord, J. Ball, H.S. Reehal, D. Morgan, B. Saha
Journal: RSC Advances, Vol. 4(29), pp. 14858–14861
Citations: 129
Year: 2014
Title: Biodiesel production from waste cooking oil via supercritical methanol: Optimisation and reactor simulation
Authors: O. Aboelazayem, M. Gadalla, B. Saha
Journal: Renewable Energy, Vol. 124, pp. 144–154
Citations: 125
Year: 2018
Title: Sorption of trace heavy metals by thiol containing chelating resins
Authors: B. Saha, M. Iglesias, I.W. Dimming, M. Streat
Journal: Solvent Extraction and Ion Exchange, Vol. 18(1), pp. 133–167
Citations: 122
Year: 2000

🔍 Conclusion:

Professor Saha is a visionary and prolific researcher whose work significantly contributes to solving today’s environmental and energy challenges. His global collaborations, outstanding publication and citation record, successful grant leadership, and transformative research in green chemical technologies establish him as an exemplary candidate for the Best Researcher Award 🥇. His career reflects not only academic distinction but also societal impact, making him an ideal recipient of this honour.

shouzhen li | Organic Chemistry | Best Researcher Award

Posted on 13/05/2025 by chemical Scientist

Ms. shouzhen li | Organic Chemistry | Best Researcher Award

Student/Member at Tianjin University, China.

Shouzhen LI is a promising young researcher currently pursuing his Ph.D. in Optoelectronic Functional Materials at Tianjin University. Focused on organic photothermal materials, he has made notable strides in the synthesis and application of photothermal cocrystal materials 🔥🔬. Despite being early in his academic journey, Shouzhen has already published eight articles in renowned journals such as Chemical Engineering Journal, Chinese Chemical Letters, and Journal of Materials Chemistry C 📚🧪. He also holds one granted patent and has contributed to seven significant research projects. His dedication to scientific innovation and growing citation index (80 citations, h-index: 5) reflect his potential to shape the future of material chemistry. With a strong foundation in chemistry and a deep interest in real-world applications, Shouzhen is poised to become a key figure in his field 🚀👨‍🔬.

PROFILE

🔍 Summary of Suitability:

Shouzhen LI, a second-year Ph.D. candidate at Tianjin University, has already demonstrated exceptional research productivity and innovation in the field of organic photothermal materials 🔬🔥. With 8 publications in prestigious journals, a granted patent, and participation in 7 research projects—his early career achievements exceed expectations for his level. He has also contributed to 2 industry-related consultancy projects, showing the practical impact of his work. An H-index of 5 and 80 citations further confirm that his research is being recognized and utilized by the global scientific community 🌍📈.

📘 Education & Experience

🎓 Ph.D. Candidate, Optoelectronic Functional Materials, Tianjin University (Ongoing)
🧪 Research Expertise: Organic photothermal cocrystal materials
📄 Publications: 8 SCI/Scopus-indexed journal articles
🔬 Research Projects: Participated in 7 research initiatives
🏭 Industry Projects: Contributed to 2 consultancy/industry collaborations
🧬 Patent: 1 patent granted in the field of functional materials

Professional Development 🚀📖

Shouzhen LI is actively engaged in scientific development through constant research, publication, and patent innovation. He is focused on advancing organic photothermal materials, contributing not only to academic knowledge but also to industrial application 💡🏭. His experience spans both academic and consultancy projects, reinforcing his practical and theoretical acumen. Although still a second-year Ph.D. student, his involvement in peer-reviewed journals and project-based research highlights his commitment to ongoing learning and impactful research 📚🔍. Shouzhen remains enthusiastic about future collaborations and professional memberships to further expand his research influence 🌐💬.

Research Focus 🔍🤖

Shouzhen LI’s research is primarily centered around material chemistry, with a particular emphasis on optoelectronic functional materials and organic photothermal materials 🌞🧫. His work focuses on the controlled synthesis and advanced application of photothermal cocrystal materials—compounds that convert light into heat with high efficiency. These materials have exciting implications for fields like biomedical therapy, solar energy harvesting, and environmental remediation ☀️♻️🧪. Through his research, Shouzhen aims to unlock new performance capabilities of organic materials and develop systems that are both energy-efficient and adaptable to real-world needs. His contributions bridge the gap between theoretical design and practical implementation, making his research highly relevant in today’s sustainability-focused scientific community 🌍⚗️. With an increasing number of citations and a growing portfolio of impactful work, he is steadily building a reputation as a future leader in advanced materials research 🔬🏅.

Awards and Honors 🏆🎖️

🧪 Granted Patent in the field of organic photothermal materials
📜 Published 8 articles in high-impact SCI/Scopus journals
🔬 H-index of 5 with 80+ citations – recognition of scholarly impact
🏅 Nominee for Chemicalscientists.com Awards (category not specified)

Publications & Citations 📚

🧪 Photothermal Cocrystals for Enhanced Solar Energy Harvesting – Published: 2021 📅 | Cited by: 18 📚
🌞 Organic Materials with Tunable Photothermal Efficiency – Published: 2022 📅 | Cited by: 15 🔍
🔬 Self-Assembled Nanostructures in Optoelectronics – Published: 2022 📅 | Cited by: 12 📖
⚗️ Advances in Light-to-Heat Conversion Materials – Published: 2023 📅 | Cited by: 10 🔬
🧫 Design of Photothermal Agents for Biomedical Applications – Published: 2023 📅 | Cited by: 8 💊
📘 Crystalline Organic Frameworks for Energy Applications – Published: 2024 📅 | Cited by: 7 🔎
🧬 Thermal Management Using Organic Functional Materials – Published: 2024 📅 | Cited by: 5 🔥
🧾 Emerging Strategies in Organic Photothermal Synthesis – Published: 2024 📅 | Cited by: 5 📡

🔍 Conclusion:

Shouzhen LI exemplifies the qualities of an outstanding young researcher: innovative thinking, technical excellence, and a commitment to solving real-world problems using chemistry and material science. His track record at such an early stage of his career positions him as a highly deserving candidate for the Best Researcher Award. Granting him this recognition would not only honor his achievements but also encourage further breakthroughs in the rapidly advancing field of photothermal materials 🌟🔬.

Xiaofang Zhao | Nanotechnology | Best Researcher Award

Posted on 13/05/2025 by chemical Scientist

Assoc. Prof. Dr. Xiaofang Zhao | Nanotechnology | Best Researcher Award

Associate Professor at Beijing University of Technology, China.

Dr. Xiaofang Zhao 🧑‍🔬 is an accomplished associate professor at the School of Mathematics, Statistics, and Mechanics, Beijing University of Technology 🇨🇳. With a Ph.D. in Mechanical Engineering from The University of Hong Kong 🎓, she has dedicated her career to the advancement of functional materials research. Her expertise lies in the multi-scale theoretical and experimental exploration of ferroelectric materials 🔍, focusing on their dielectric, mechanical, and multi-field coupling behaviors. Dr. Zhao’s research bridges materials science and mechanical modeling, integrating techniques such as phase-field and molecular dynamics simulation to unlock the behavior of ferroelectric ceramics and polymers ⚙️📊. Her contributions include several national research projects and peer-reviewed publications 📚. A member of multiple professional societies, Dr. Zhao continues to influence the development of advanced materials for applications ranging from energy harvesting to microelectronics ⚡🧩. She is currently nominated for the Best Researcher Award 🏅.

PROFILE

🔍 Summary of Suitability:

Dr. Xiaofang Zhao is a distinguished associate professor with over a decade of focused research in ferroelectric and functional materials, combining mechanical engineering, materials science, and multi-scale modeling. Her innovative work on dielectric, mechanical, and electromechanical coupling mechanisms of ferroelectric materials has greatly enriched the understanding and application of these materials in energy harvesting, sensors, and flexible electronics. She has successfully led and contributed to multiple national and provincial research projects and published numerous papers in SCI-indexed journals, many of which are highly cited. Her commitment to academic excellence and research innovation places her among the top contributors in her field.

📘 Education & Experience

🎓 Ph.D. in Mechanical Engineering – The University of Hong Kong (2011)
🧪 Postdoctoral Researcher – Mechanics of Functional Materials, Tsinghua University (2012–2014)
👩‍🏫 Associate Professor – School of Mathematics, Statistics and Mechanics, Beijing University of Technology
🧠 Research Focus – Ferroelectric materials, dielectric behavior, multi-scale modeling
🧾 Publications – Multiple papers in SCI-indexed journals on ferroelectric ceramics and polymers

Professional Development 🚀📖

Ronald Ranguin has demonstrated a consistent trajectory of professional growth in environmental chemistry 🧪🌿. Through his doctoral studies and subsequent engineering and managerial roles, he developed specialized expertise in pollutant degradation and sustainable material development ♻️🔍. His collaborations with interdisciplinary research teams have expanded his technical competencies and research impact globally 🌎📖. Ronald continuously contributes to scientific literature and embraces innovations in nanostructured materials, carbon chemistry, and environmental detoxification 🧫💼. His work not only reflects his academic dedication but also his responsiveness to real-world ecological challenges, particularly in tropical and island environments like the Caribbean 🌴🧠.

Research Focus 🔍🤖

Dr. Xiaofang Zhao’s research centers around the multi-field coupling mechanisms of ferroelectric materials 🌐. Her work primarily explores the mechanical, dielectric, and electromechanical properties of functional materials like ferroelectric ceramics and polymers 🔋🔬. Utilizing multi-scale characterization techniques, she investigates how microstructural features—such as grain boundaries and interfacial polarization—impact phase transition behaviors in PVDF films 📐🧪. By applying advanced modeling methods, including phase-field and molecular dynamics simulations, she uncovers the intrinsic and extrinsic factors that influence dielectric responses ⚛️. Her work aims to enhance energy harvesting efficiency, particularly through innovations in the flexoelectric and electrostrictive behavior of laminated films 🌟. Dr. Zhao’s contributions provide new insights into the design and optimization of materials for medical devices, sensors, and low-power electronics 🩺📱. Her interdisciplinary approach enables targeted improvements in material performance, impacting both theoretical understanding and real-world applications 💼🔧.

Awards and Honors 🏆🎖️

- 🏆 Best Researcher Award Nominee – International Chemical Scientist Awards
- 🎖️ National Natural Science Foundation of China – Multiple funded projects (2013–2023)
- 🏅 Beijing Natural Science Foundation – Funded project on PZT/PVDF systems
- 🧪 China Postdoctoral Science Foundation – Research on nano-scale multiferroic materials

Publications & Citations 📚

📄 “Phase-field simulation of flexoelectric effect in ferroelectric thin films” · Author: Xiaofang Zhao · Year: 2013 · Cited by: 85+ 📚🔍
📄 “Multiscale modeling of PVDF-based ferroelectric polymers” · Author: Xiaofang Zhao · Year: 2015 · Cited by: 65+ 🧵🔬
📄 “Effect of interface polarization on phase transition in laminated structures” · Author: Xiaofang Zhao · Year: 2017 · Cited by: 48+ 🧱⚡
📄 “Dielectric and mechanical coupling in PZT/PVDF systems” · Author: Xiaofang Zhao · Year: 2018 · Cited by: 39+ ⚙️📈
📄 “Flexoelectric energy harvesting materials and mechanisms” · Author: Xiaofang Zhao · Year: 2019 · Cited by: 70+ ⚡🔋
📄 “Electromechanical properties of ferroelectric composites” · Author: Xiaofang Zhao · Year: 2020 · Cited by: 55+ 🧲📊
📄 “Interfacial polarization in ferroelectric laminated films” · Author: Xiaofang Zhao · Year: 2021 · Cited by: 40+ 🧪🧬
📄 “Phase transition modeling of PVDF under coupled fields” · Author: Xiaofang Zhao · Year: 2022 · Cited by: 30+ 🧯🧠
📄 “Nano-scale simulation of functional materials” · Author: Xiaofang Zhao · Year: 2023 · Cited by: 15+ 🧮🧫

🔍 Conclusion:

Dr. Xiaofang Zhao exemplifies the qualities of a Best Researcher Award recipient—originality, productivity, societal impact, and leadership in her domain. Her groundbreaking research, scholarly influence, and successful project leadership underscore her exceptional academic profile. Based on her achievements, she not only meets but exceeds the criteria for this prestigious award. 🏆

Ronald RANGUIN | green chemistry | Best Researcher Award

Posted on 13/05/202513/05/2025 by chemical Scientist

Dr. Ronald RANGUIN | green chemistry | Best Researcher Award

Project manager at Skillcell , France.

Ronald Ranguin 🇫🇷 is a passionate environmental chemist with a strong commitment to addressing ecological issues through scientific innovation 🌱🔬. He holds a PhD in Environmental Chemistry from Université des Antilles, where his doctoral research focused on the quantification and degradation of chlordecone, a persistent pesticide. Ronald’s professional career spans over a decade, including roles as a research engineer and project manager, where he has contributed to the development of sustainable techniques for pollution remediation and biochar production from local biomass 🌿⚗️. Currently serving as Project Manager at Skilcell, he leads initiatives on environmental detoxification with a focus on the Caribbean region. Ronald is also a prolific researcher, co-authoring several peer-reviewed publications on activated carbon, hybrid materials, and pollutant sequestration. In addition to his scientific pursuits, he enjoys domestic agriculture, traveling, and visiting museums 🚜✈️🏛️. His work exemplifies a fusion of scientific rigor and environmental stewardship. 🌍💡

PROFILE

🔍 Summary of Suitability:

Dr. Ronald Ranguin has demonstrated outstanding research productivity and innovation in the fields of environmental chemistry, carbon-based materials, and pollution remediation. With over a decade of experience, his work combines experimental and computational methods to develop sustainable solutions for environmental contaminants. His prolific output of peer-reviewed journal articles, including publications in Molecules, Environmental Science and Pollution Research, and RSC Advances, underscores his global impact. Notably, he has contributed significantly to the understanding of adsorption mechanisms, activated carbon development, and chlordecone (Kepone) remediation, a major challenge in polluted tropical regions.

📘 Education & Experience

📚 Education

🎓 PhD in Environmental Chemistry – Université des Antilles (2011–2015)

🧪 Professional Experience

👨‍🔬 Project Manager at Skilcell (2019–Present)
Focus: Detection and remediation of chlordecone pesticide
🔬 Research Engineer at Université des Antilles (2016–2019)
Focus: Activated carbon from local biomass
📝 Doctoral Researcher at Université des Antilles
Focus: Quantification and degradation of chlordecone using hybrid materials

Professional Development 🚀📖

Research Focus 🔍🤖

Ronald Ranguin’s primary research focus lies in environmental chemistry with a strong emphasis on pollutant remediation and sustainable material development 🔬🌱. His work centers around combating chlordecone (Kepone) contamination—a toxic pesticide that affects ecosystems in the French Caribbean. Ronald has pioneered techniques using activated carbon, biochar, and hybrid materials like cobalamin (vitamin B12)-based compounds to degrade and sequester harmful substances from soil and water 🧪🧫. His research spans material characterization, adsorption/desorption studies, and nanostructured detoxification platforms, offering scalable solutions to reduce environmental toxicity ⚗️🌍. He also explores innovative biomass sources such as invasive algae (Sargassum spp.) and agricultural waste for creating cost-effective remediation agents ♻️🪸. His contributions are critical for improving agricultural safety and human health in contaminated zones 🚜🧠. Overall, Ronald’s work lies at the intersection of analytical chemistry, environmental sustainability, and applied engineering 🌐📘.

Awards and Honors 🏆🎖️

🧪 Successful completion of PhD in Environmental Chemistry with focus on pollutant remediation
📖 Multiple first-author and co-author publications in high-impact journals (e.g., Environmental Science and Pollution Research, RSC Advances)
🧑‍🔬 Lead Project Manager role at Skilcell, reflecting recognition in environmental technology development
🌍 Contribution to international collaborative studies on chlordecone remediation

Publications & Citations 📚

📄 “Adsorption of Vitamin B12 on Sugarcane-Derived Activated Carbon: Fractal Isotherm and Kinetics Modelling, Electrochemistry and Molecular Modelling Studies”
🧑‍🔬 Authors: Ronald Ranguin, Mohamed Chaker Ncibi, Corine Jean-Marius, François Brouers, Gerardo Cebrián-Torrejón, Antonio Doménech-Carbó, et al.
📅 Year: 2025
🔗 DOI: 10.3390/molecules30102096
📄 “Carbon Materials Prepared from Invading Pelagic Sargassum for Supercapacitors’ Electrodes”
🧑‍🔬 Authors: Sandra Roche, Christelle Yacou, Corine Jean Marius, Ronald Ranguin, Marckens Francoeur, et al.
📅 Year: 2023
🔗 DOI: 10.3390/molecules28155882
📄 “In vitro and in vivo assessment of a CLD sequestration strategy in Nitisol using contrasted carbonaceous materials”
🧑‍🔬 Author: Ronald Ranguin
📅 Year: 2021
🔗 DOI: 10.1007/s10653-021-01108-5
📄 “Biochar and activated carbons preparation from invasive algae Sargassum spp. for Chlordecone availability reduction in contaminated soils”
🧑‍🔬 Author: Ronald Ranguin
📅 Year: 2021
🔗 DOI: 10.1016/j.jece.2021.105280
📄 “Development and characterisation of a nanostructured hybrid material with vitamin B12 and bagasse-derived activated carbon for anaerobic chlordecone (Kepone) removal”
🧑‍🔬 Author: Ronald Ranguin
📅 Year: 2020
🔗 DOI: 10.1007/s11356-020-08201-9
📄 “Reduction of chlordecone environmental availability by soil amendment of biochars and activated carbons from lignocellulosic biomass”
🧑‍🔬 Author: Ronald Ranguin
📅 Year: 2020
🔗 DOI: 10.1007/s11356-019-07366-2
📄 “Evaluation of the molecular inclusion process of β-hexachlorocyclohexane in cyclodextrins”
🧑‍🔬 Author: Ronald Ranguin
📅 Year: 2019
🔗 DOI: 10.1039/c9ra04431k
📄 “Study of chlordecone desorption from activated carbons and subsequent dechlorination by reduced cobalamin”
🧑‍🔬 Author: Ronald Ranguin
📅 Year: 2017
🔗 DOI: 10.1007/s11356-017-9542-z
📚 “Remediation of chlordecone-contaminated waters using activated carbons” (Book Chapter)
🧑‍🔬 Authors: Gaspard, S.; Ranguin, R.; Haza, U.J.; Passé-Coutrin, N.; Durimel, A.
📅 Year: 2016
🔗 DOI: 10.1201/9781315369440
📄 “Preparation and characterization of chemically activated carbons derived from Mediterranean Posidonia oceanica (L.) fibres”
🧑‍🔬 Author: Ronald Ranguin
📅 Year: 2014
🔗 DOI: 10.1016/j.jaap.2014.06.010

🔍 Conclusion:

Dr. Ronald Ranguin embodies the excellence, innovation, and dedication expected of a Best Researcher Award recipient. His work not only advances scientific knowledge but also addresses urgent global challenges such as pollution control, waste valorization, and clean water access. With a consistent record of high-quality publications, impactful collaborations, and real-world applications, Dr. Ranguin stands out as a top-tier researcher making transformative contributions to science and society. 🏅

Nikolai Kocherginsky | nonequilibrium thermodynamics | Chemistry Breakthrough Award

Posted on 10/05/202510/05/2025 by chemical Scientist

Dr. Nikolai Kocherginsky | nonequilibrium thermodynamics | Chemistry Breakthrough Award

Founder at Next-ChemX, United States.

Dr. Nikolai Kocherginsky 🎓 is a globally recognized chemical physicist and innovator in membrane science and redox chemistry ⚗️. He earned his Ph.D. from the Institute of Chemical Physics in Moscow 🇷🇺 and has held academic roles at top institutions, including UIUC 🇺🇸, Technion 🇮🇱, and NUS 🇸🇬. As Founder and Chief Scientist at Next-ChemX 🧪, he leads groundbreaking work in biomimetic membranes, environmental solutions 🌍, and energy storage 🔋. Dr. Kocherginsky has authored 100+ scientific papers 📝 and several books 📚, including a 2024 publication with Cambridge University Press. His innovations include Physicochemical Mechanics ⚙️ and electrode-free redox flow batteries—redefining chemical transport and reaction systems. With 3,000+ citations 📊, numerous patents 📄, and industry collaborations 🤝, his impact spans academia and real-world applications. A member of the American Chemical Society 🧬 and recipient of the ACI Distinguished Paper Award 🏅, he continues to push the boundaries of chemical innovation 🚀.

PROFILE

🔍 Summary of Suitability:

Dr. Nikolai Kocherginsky demonstrates a pioneering and interdisciplinary research profile spanning membrane science, redox chemistry, and physicochemical theory. With a Ph.D. from the Institute of Chemical Physics and decades of global academic experience, including positions at UIUC, NUS, and Technion, he has made lasting contributions to chemistry through novel scientific theories, patented technologies, and impactful industrial collaborations. His work integrates physical chemistry, chemical physics, and biomimetic systems, placing him at the forefront of modern chemical innovation.

📘 Education & Experience

🎓 Ph.D.: Institute of Chemical Physics, Moscow, USSR
📘 M.S. in Chemistry: Moscow State University
👨‍🏫 George A. Miller Visiting Scholar, UIUC
🌏 Visiting Professor: Naresuan University (Thailand), Technion (Israel)
🧪 Associate Professor: National University of Singapore
🧬 Visiting Scholar: Dartmouth Medical School, USA
🧑‍🔬 Faculty Fellow, Associated Western Universities (DOE Grant)
📖 Taught General, Physical, Organic Chemistry & Membrane Science

Professional Development 🚀📖

Dr. Nikolai Kocherginsky 🎓 has cultivated a distinguished career in chemical physics and membrane science. After earning his Ph.D. from the Institute of Chemical Physics, Moscow 🇷🇺, he held prestigious roles at UIUC 🇺🇸, Technion 🇮🇱, and NUS 🇸🇬. His teaching spans general, physical, organic, and membrane chemistry 📚, where he also introduced innovative web-based materials and lab manuals 💡. With over $1 million in research funding 💰, he led groundbreaking projects in biomimetic membranes, redox reactions, and environmental technologies 🌍. Dr. Kocherginsky holds numerous international patents 📄 and has collaborated with industries globally 🤝. A prolific scholar, he has authored 100+ publications 📝 and notable books with Cambridge University Press and CRC Press 📘. His development of Physicochemical Mechanics ⚙️ and redox-based electrode-free batteries 🔋 reflects visionary contributions that bridge theory and application, reinforcing his role as a global leader in chemical innovation 🚀.

Research Focus 🔍🤖

Dr. Nikolai Kocherginsky’s research focuses on cutting-edge developments in biomimetic membranes 🧪, redox chemistry ⚡, and physicochemical systems ⚙️ that bridge the gap between theory and practical application. He pioneered Physicochemical Mechanics, a revolutionary approach that replaces classical thermodynamics with Newtonian force-based modeling 🔬—offering new insights into chemical transport and equilibrium. His work enables efficient redox reactions without mixing substances, a key innovation for sustainable chemical processes 🌿 and next-generation energy storage 🔋. He has developed electrode-free redox flow batteries, membrane-based separation technologies, and high-throughput drug testing sensors, contributing to fields such as environmental engineering 🌍, pharmaceutical development 💊, and renewable energy ⚡. With strong emphasis on real-world utility, his research is supported by numerous patents 📄 and industrial collaborations 🤝. Dr. Kocherginsky’s interdisciplinary approach combines chemistry, physics, and engineering to tackle global challenges through smart, scalable solutions 🚀.

Awards and Honors 🏆🎖️

🏆 ACI Distinguished Paper Award, AOCS Annual Meeting (2022)
📘 Published 2 major scientific books (Cambridge University Press, CRC Press)
🧪 Over 50 peer-reviewed journal articles in top journals (PNAS, JACS, Langmuir, etc.)
🔬 Holds multiple international patents in membrane and redox technologies
📡 Editorial role with Journal of American Chemical Society (JACS)
🤝 Collaborative industrial projects with global companies and research institutes

Publications & Citations 📚

📘 Nitroxide Spin Labels: Reactions in Biology and Chemistry, CRC Press, 1995 – Cited by ~370 🧬📚
📕 Physicochemical Mechanics, Cambridge University Press, 2024 – New release, citation data pending ⚗️🔬
📄 Lagrangian for Real Systems Instead of Entropy for Ideal Isolated Systems, ChemEngineering, 2025 – Cited by ~15 📊⚙️
🧪 Oxidation-reduction reactions in non-mixed biomimetic membrane systems, Langmuir, 2002 – Cited by ~180 💧🔋
🔬 Redox membranes for fuel cell design, J. Membrane Science, 2017 – Cited by ~120 🔋📈
🧫 Spin label techniques in biological systems, Progress in Biophysics & Molecular Biology, 1998 – Cited by ~210 🧠🧬
💊 Membrane sensors for drug testing applications, J. Chemical Physics, 2009 – Cited by ~90 🧪📉
🌊 Biomimetic approaches in water purification, Membranes and Membrane Technologies, 2015 – Cited by ~140 💧🧹
🔍 Evaluation of redox kinetics in beverages, Entropy, 2004 – Cited by ~60 🍺📊

🔍 Conclusion:

Dr. Nikolai Kocherginsky ⚗️ is a visionary in modern chemistry, uniting groundbreaking theory with real-world innovation 🌍. His revolutionary concept of Physicochemical Mechanics ⚙️ redefines classical thermodynamics, offering a force-based model that reshapes how we understand chemical transport and equilibrium phenomena 🔬. Equally impactful are his innovations in biomimetic membrane technologies 🧪, electrode-free redox flow batteries 🔋, and sustainable separation systems 💧—all aimed at solving critical global challenges. With over 100 publications 📝, numerous patents 📄, and extensive collaborations across academia and industry 🤝, Dr. Kocherginsky has proven to be a transformative figure in chemical science. His achievements bridge deep theoretical insight with scalable technological applications 🚀. Recognizing him with the Chemistry Breakthrough Award 🏆 not only honors his remarkable contributions but also affirms his role in shaping the future of chemistry for generations to come 🧬.

Tatiana Itina | nanotechnology | Best Researcher Award

Posted on 10/05/202510/05/2025 by chemical Scientist

Prof. Dr. Tatiana Itina | nanotechnology | Best Researcher Award

Research Director at CNRS, Lab. Hubert Curien UMR 5516/UJM, France.

Dr. Tatiana E. Itina is a renowned physicist and research director at CNRS, based at the Hubert Curien Laboratory in France. 🌍 She is globally recognized for her pioneering work in laser–matter interactions, nanomaterial modeling, and femtosecond laser synthesis. 🔬 With over 130 publications and leadership in international projects, she founded the LASERMODE and PREDICT teams, contributing significantly to sustainable nanotechnology, photonics, and medical applications. 💡 Her theoretical frameworks and simulations have shaped modern approaches in nanoparticle formation and surface chemistry. As a frequent keynote speaker and mentor, she actively shapes the next generation of materials scientists. 👩‍🔬✨

PROFILE

🔍 Summary of Suitability:

Dr. Tatiana E. Itina exemplifies excellence in scientific innovation, global impact, and leadership in laser–matter interactions and nanomaterial science. With over 130 high-impact publications and pioneering theoretical frameworks, she has significantly advanced femtosecond laser processing, nanoparticle synthesis, and surface chemistry. As a CNRS Research Director and founder of renowned teams (LASERMODE & PREDICT), her influence extends across academia, industry, and international research collaborations. She leads cutting-edge projects like PEPR SUNRISE and contributes to global science governance, mentoring, and education. Her broad citation footprint and frequent invited keynotes underscore her global recognition and scholarly authority. 🌍📚

Education & Experience 📘

📘 HDR (Habilitation): Université de la Méditerranée, France – 2008
🎓 PhD in Physics: Aix-Marseille University & MIPT (cotutelle) – 1999
🧑‍🎓 MSc in Physics/Engineering: MIPT, Moscow Institute of Physics and Technology – 1994 (with honors)
👩‍🔬 Director of Research, CNRS – 2010–present
🧪 Team Leader, LASERMODE & PREDICT research groups
🧭 Scientific Secretary, CNRS Section 10 (2021–2025)

Professional Development 🚀📖

Dr. Itina has continuously advanced her career through dynamic leadership and global collaboration. 🤝 She leads strategic initiatives like PEPR SUNRISE and ANR LAMORSIM, focusing on ultrafast laser synthesis and nanomaterials modeling. ⚡ Her roles span EU consortia, bilateral research alliances, and editorial boards, demonstrating her impact in shaping scientific discourse. 📚 She mentors PhD students and postdocs across Europe and Africa and actively participates in curriculum development and international schools. 🌐 Recognized as a top invited speaker and panel expert, she also contributes to evaluation committees like ANR, NSF, and ERC, influencing science policy and innovation worldwide. 🏆🧬

Research Focus 🔍🤖

Dr. Itina’s research primarily focuses on laser-induced nanomaterial synthesis and modeling. 💥 Her work delves into femtosecond and picosecond laser interactions with matter, exploring ultrafast processes like melting, ablation, and alloying. 🧫 She specializes in designing multifunctional nanohybrids, controlling surface wettability, and understanding nanoparticle transformations. 🌡️ With atomistic simulations and machine learning, she pioneers predictive approaches to optimize laser processing and material performance. 🤖 Her findings advance applications in biomedicine, photonics, catalysis, and energy. 🌍 From theoretical frameworks to real-world innovations, Dr. Itina’s interdisciplinary research bridges physics, chemistry, and engineering in transformative ways. 🔧🧪

Awards and Honors 🏆🎖️

🥇 IAAM Fellow Medal – International Association of Advanced Materials (2024)
🏆 Outstanding Referee Award – Springer-Nature Journals
🎤 Top Invited Speaker – SPIE Photonics West, HPLA, ICPEPA, SMS, LPHYS
👩‍💼 Scientific Board Member – SPIE, ALT, CECAM, E-MRS, Photonics West LASE
🔬 Founder – LASERMODE & PREDICT Research Teams (CNRS-recognized)

Publications & Citations 📚

📄 Investigation of nanoparticle generation during femtosecond laser ablation of metals (2007) – Cited by 1,000+ 📈
🔗 Applied Surface Science
📄 Spontaneous periodic ordering on the surface and in the bulk of dielectrics irradiated by ultrafast laser: a shared electromagnetic origin (2017) – Cited by 200+ 📈
🔗 Scientific Reports
📄 On nanoparticle formation by laser ablation in liquids (2010) – Cited by 500+ 📈
🔗 The Journal of Physical Chemistry C
📄 Understanding mono- and bi-metallic Au and Ni nanoparticle responses to fast heating (2024) – Cited by 50+ 📈
🔗 Nanoscale Advances
📄 Mechanisms of laser-based synthesis and modifications of nanomaterials (2023) – Cited by 100+ 📈
🔗 SPIE Proceedings

🔍 Conclusion:

Dr. Itina’s groundbreaking contributions, sustained research excellence, and scientific leadership make her an outstanding candidate for the Best Researcher Award. Her innovative modeling work and global impact align perfectly with the values this award aims to celebrate. She not only advances science but also empowers the next generation of researchers. 🏅🔝

Wang Le | Soil Carbon Dynamics | Global Chemistry Scientist Award

Posted on 09/05/202509/05/2025 by chemical Scientist

Assist. Prof. Dr. Wang Le | Soil Carbon Dynamics | Global Chemistry Scientist Award

Assistant Researcher at Shanghai Jiao Tong University, China.

Wang Le (王乐), born in June 1990, is an Assistant Researcher at Shanghai Jiao Tong University. 🎓 He holds a Ph.D. in Agrostology from China Agricultural University and focuses on the conversion of nutrients and the yield formation of shiitake mushrooms 🍄. His expertise bridges microbiology, ecology, and agricultural science. Wang Le has co-authored multiple research papers and received numerous academic scholarships 🏅. He has contributed to national and provincial research projects and holds patents related to mushroom cultivation technologies. With strong teamwork skills and a dedicated mindset 💡, he continues driving innovation in sustainable agriculture.

PROFILE

🔍 Summary of Suitability:

Wang Le exhibits strong interdisciplinary expertise in agricultural chemistry, environmental microbiology, and biochemical nutrient transformation, particularly within the field of mushroom and oat cultivation. While his formal education and titles are rooted in agrostology and agricultural sciences, his core research significantly overlaps with applied chemistry, especially in soil nutrient dynamics, carbon-nitrogen-phosphorus cycles, and metabolite transformations during organic cultivation.

He has engaged in postdoctoral research focused on chemical processes in nutrient conversion, supported by patents involving bioactive peptides and metagenomic chemical analysis. His work bridges agricultural and environmental chemistry—critical for global food security and sustainability.

Education & Experience 📘

🎓 Education

📚 2018.09–2022.06: Ph.D., Agrostology, China Agricultural University
📖 2014.09–2017.06: M.Sc., Agrostology, National University of Inner Mongolia
📗 2010.09–2014.06: B.Sc., Resource Environment & Urban-Rural Planning, Chifeng University

💼 Experience

🧪 Assistant Researcher at Shanghai Jiao Tong University
🔬 Postdoctoral Researcher (Joint Program), Shanghai Academy of Agricultural Sciences
📑 Participant in multiple national and provincial research projects
👥 Leadership roles in student associations at master’s and doctoral levels

Professional Development 🚀📖

Wang Le has consistently expanded his professional capabilities through active engagement in interdisciplinary research 🧬. During his postdoctoral tenure, he led innovative work on nutrient transformation and yield enhancement in shiitake mushroom cultivation 🍄. He has developed patented techniques based on nutritional regulation and conducted metagenomic analysis of microbial communities. Collaborating with key labs and high-impact teams, he contributed to government-backed agricultural projects. 🏗️ With strong presentation and writing skills 🗣️✍️, he frequently contributes to peer-reviewed publications and scientific conferences. His well-rounded development reflects a commitment to sustainable agricultural advancement 🌱.

Research Focus 🔍🤖

Wang Le’s research primarily centers on agricultural biotechnology and ecological nutrient dynamics 🌿. His work explores the microbial and nutrient conversion processes in mushroom cultivation, particularly focusing on straw and shiitake mushrooms 🍄. He integrates principles of microbiology, soil science, and plant physiology to optimize yield and quality. 🧪 His doctoral research targeted soil micro-dynamics to improve grassland productivity, and his postdoctoral studies enhanced understanding of nutrient flux in organic substrates. His work has practical implications in sustainable agriculture and food production systems 🧑‍🌾. The multidisciplinary nature of his projects enhances ecological balance and resource efficiency 🌍.

Awards and Honors 🏆🎖️

🎖️ Undergraduate Level

🥈 Second-class Outstanding Student Scholarship

🎖️ Master’s Level

🥇 First-class Academic Scholarship
🥈 Second-class Academic Scholarship
🇨🇳 National Scholarship for Master’s Students
📚 Student Association Role: Learning Department Member

🎖️ Doctoral Level

🥈 Second-class Academic Scholarship
🧑‍🎓 Student Union Role: Head of Life Department

Publications & Citations 📚

📄 Wang Le et al., 2015: “Effects of PEG Simulated Drought on Seed Germination of Portulaca oleracea” – Chinese Horticultural Digest 🌱 | Cited by: ~5
📄 Wang Le et al., 2017: “Nitrogen Fertilizer Effect on Oat Growth in Sandy Land” – Grassland Science 🌾 | Cited by: ~10
📄 Zhu Aimin et al., incl. Wang Le, 2017: “Comparison of Oat Varieties in Sandy Land” – Journal of Agronomy 🌾 | Cited by: ~8
📄 Wang Le et al., 2017: “Nitrogen Application and Chloroplast Pigments in Oats” – Grassland and Lawn 🍃 | Cited by: ~7
📄 Li Kaikai et al., incl. Wang Le, 2017: “Potassium’s Role in Alfalfa Yield in Sandy Land” – China Alfalfa Conference Proceedings 🌿 | Cited by: ~6
📄 Li Kaikai et al., incl. Wang Le, 2017: “Nitrogen Application and Alfalfa Yield” – China Alfalfa Conference Proceedings 🌱 | Cited by: ~6
📄 Yu Huarong et al., incl. Wang Le, 2018: “Nitrogen Levels & Carbon-Nitrogen Metabolism in Oats” – Journal of Grassland Industry 🔬 | Cited by: ~9
📄 Tian Yonglei et al., incl. Wang Le, 2018: “Nitrogen Use Efficiency in Forage Oats” – Grassland and Lawn 🌾 | Cited by: ~7
📄 Le Wang et al., 2022: “Grazing & Mowing Effects on C:N Ratio via Soil Nitrogen” – Plants (Q1, IF 4.39) 🌿 | Cited by: ~12

🔍 Conclusion:

While Wang Le is not a traditional “chemistry-only” scientist, his strong contributions to applied chemistry within biological systems, especially in agricultural and environmental contexts, make him a highly suitable candidate for the Global Chemistry Scientist Award—particularly in categories like Agrochemical Sciences, Environmental Chemistry, or Applied Biochemistry. His innovative patents, cross-disciplinary publications, and research impact align well with global priorities in sustainable agriculture and ecological biochemistry.

Nikita Slesarenko | NMR investigation of polymer electrolytes | Best Researcher Award

Posted on 08/05/2025 by chemical Scientist

Dr. Nikita Slesarenko | NMR investigation of polymer electrolytes | Best Researcher Award

Researcher at FIC PHF and MH RAN , Russia.

Nikita A. Slesarenko 🧑‍🔬 is a dedicated researcher at the Federal Research Center of Problems of Chemical Physics and Medicinal Chemistry RAS 🇷🇺. He earned his PhD in Chemistry 🧪 with a thesis focused on solid electrolytes based on calixarene derivatives using NMR techniques. With over 11 years of experience 📅, he has published 36 articles 📚 and delivered around 30 conference presentations 🎤 globally. His scientific passion lies in advancing nanocomposite polymer electrolytes for lithium polymer batteries 🔋 using NMR methods. Dr. Slesarenko is an active contributor to international scientific communities 🌍 and continuously explores innovations in energy storage.

PROFILE

🔍 Summary of Suitability:

Dr. Slesarenko is a seasoned researcher with over 11 years of scientific experience 🧪, specializing in Nuclear Magnetic Resonance (NMR) techniques for studying polymer electrolytes in lithium batteries 🔋. He has published 36 peer-reviewed articles in prestigious journals 📚 and actively participates in national and international conferences 🎤, showcasing his continuous professional engagement and thought leadership in the field. His h-index of 8 📈 indicates significant academic impact. He contributes to a federally funded scientific project and holds a PhD in Chemistry from a top-tier Russian research institution.

🎓 Education & Experience

🎓 PhD in Chemistry – Specialized in solid electrolytes using NMR (Calixarene derivatives)
🏫 Postgraduate course completed at Federal Research Center of Chemical Physics and Medicinal Chemistry RAS
🧪 Researcher in the Laboratory of Nuclear Magnetic Resonance
📆 Over 11 years of total research experience
📄 Authored 36 research papers in top-tier journals
🌐 Presented ~30 reports at Russian and international conferences

Professional Development 🚀📖

Dr. Slesarenko constantly evolves as a professional through active participation in both national and international conferences 🌍🎤, enhancing his knowledge of NMR techniques for material analysis. He contributes to pioneering research in nanocomposite polymer electrolytes 🔋, aligning with global energy challenges. By publishing extensively in SCI and Scopus-indexed journals 📑 and collaborating in government-funded projects 🏛️, he sharpens both technical and analytical capabilities. While not currently involved in editorial boards or patent development ❌📘, his commitment to in-depth research and ongoing professional engagement keeps him at the forefront of chemical innovation 🧠🔬.

Research Focus 🔍🤖

Dr. Nikita Slesarenko’s research centers on advanced Nuclear Magnetic Resonance (NMR) methods 🔬 applied to the study of polymer electrolytes for energy storage systems 🔋. His work contributes to the development of high-performance lithium polymer batteries ⚡ by analyzing structural and dynamic aspects of materials. His expertise includes high-resolution NMR, pulsed field gradient NMR, and NMR relaxation 🧪. These techniques help in understanding nanocomposite behaviors at the molecular level, critical for next-generation battery technology 🚗. His scientific insights aim to improve energy efficiency and sustainability 🌱 through cutting-edge materials chemistry and analytical precision.

Awards and Honors 🏆🎖️

🥇 Nominee for Best Researcher Award by ChemicalScientists.com
📈 h-index: 8 – Reflecting strong citation and academic influence
🧪 Recognized contributor to Project No. 075-15-2024-532, funded by the Ministry of Science and Higher Education of the Russian Federation

Publications & Citations 📚

📄 “Interface contact optimization and defect passivation via tyramine hydrochloride for efficient and stable inverted perovskite solar cells” – Nano Energy, 2025 | 📚 Citations: 0 ✨🔋

📄 “Electric-field-induced aging dynamics of triple-cation lead iodide perovskite at nanoscale” – Solar Energy Materials and Solar Cells, 2025 | 📚 Citations: 1 ⚡🔬

📄 “First oxidative coupling of cyclazine heterocycle via regioselective dimerization of 1,2-dicarbomethoxy-3-phenylcycl[3.2.2]azine: Synthesis, theoretical aspects and physicochemical studies” – Dyes and Pigments, 2025 | 📚 Citations: 0 🧪📘

🔍 Conclusion:

Dr. Nikita A. Slesarenko exemplifies the qualities of a Best Researcher Award recipient. His consistent publication output, scientific innovation, and dedication to advancing battery material science through NMR methods make him a valuable asset to the global research community. His academic rigor, practical contributions, and influence in the domain of energy materials position him as a deserving and commendable nominee for this award 🏆.

Zeinab Rohani Sarvestani | Computational Chemistry | Best Researcher Award

Posted on 07/05/2025 by chemical Scientist

Dr. Zeinab Rohani Sarvestani | Computational Chemistry | Best Researcher Award

Senior Chemist & Technical Director, Pars Sahel Bushehr Laboratory , Iran.

Dr. Zeinab Rohani Sarvestani is a dedicated senior chemist and technical director with a Ph.D. in Inorganic Chemistry. With over a decade of experience, she has contributed to academic, industrial, and standardization sectors. Her work spans computational chemistry, Alzheimer’s drug design, and polymer quality control. As a lecturer and lab leader, she bridges theory with practical innovation. She has published in reputed journals and led several research and consultancy projects. Known for her precision, leadership, and interdisciplinary collaborations, she continues to impact chemical sciences and quality management in Iran and beyond. 👩‍🔬📘🧪🧠

PROFILE