Tag: Interdisciplinary Chemistry Award

Education

Hui Li’s academic journey reflects a strong commitment to interdisciplinary research and excellence in engineering. He obtained his Bachelor’s degree in Environmental Science from Qingdao Agricultural University , where he laid the foundation for his scientific career. Pursuing higher studies, he joined the Beijing Institute of Technology (BIT) and earned a Ph.D. in Environmental Engineering. During his doctoral training, Hui Li was selected for an international joint research program at the University of California, San Diego , where he studied NanoEngineering with a focus on electrochemical energy materials under leading experts. His academic performance was distinguished with a National Ph.D. Scholarship (2016) and the Excellent Doctoral Dissertation Award from BIT . Through this education, he gained deep expertise in materials science, nanotechnology, and energy engineering, equipping him with the skills to contribute meaningfully to the rapidly evolving field of advanced energy storage technologies.

Experience

Dr. Hui Li’s professional career spans cutting-edge research, project leadership, and industrial collaboration in the energy sector. He began with an internship at the State Grid Smart Grid Research Institute , working on energy storage projects. Later, as an R&D Engineer at the State Grid Smart Grid Research Institute , he led and contributed to seven major projects, including sodium-ion and liquid metal battery technologies funded by the National Key R&D Program and National Natural Science Foundation. He joined the Beijing Institute of Smart Energy, where he continues as a Senior Engineer, contributing to lithium-ion and sodium-ion battery development, particularly for extreme environments. His work spans research management, scenario analysis, and technology evaluation for grid-scale applications. To date, he has completed nine projects and is actively involved in two ongoing ones, establishing himself as a leading researcher integrating academic innovation with industry-based solutions.

Professional Development

Hui Li has consistently pursued professional development through academic, industrial, and collaborative engagements. He has authored two professional books on electrochemical energy storage and LiDAR applications, reflecting his ability to link theory with practice. He serves as a peer reviewer for multiple journals, including Shandong Electric Power Technology, Battery, and Mining and Metallurgy, ensuring he remains actively involved in evaluating and shaping research in his field. As a mentor at the Beijing Institute of Technology, he contributes to training the next generation of researchers. His editorial and reviewing roles have honed his analytical and critical skills, while his collaborations with top universities and companies, such as the University of California, San Diego and China Enli Co., Ltd., have expanded his expertise in global research networks. Membership in the China Chemical Society further complements his development, keeping him connected to evolving innovations and policy directions in chemical engineering and energy storage.

Skills & Expertise

Hui Li’s expertise spans electrochemical energy storage, battery materials engineering, and system integration. He has advanced knowledge of lithium-ion and sodium-ion battery electrode materials, particularly in aqueous sodium-ion systems and Prussian blue-based compounds. His skills extend across multi-scale design, nanomaterial synthesis, and material genome engineering, enabling him to translate fundamental science into scalable technologies. With 36 peer-reviewed publications and extensive patent contributions, he demonstrates a balance of theoretical insight and practical innovation. His technical competencies include electrochemical performance testing, TEER evaluation, and computational modeling for material optimization. Hui Li also excels in project leadership, having managed large-scale national and corporate-funded projects. His professional versatility allows him to work across academic, industrial, and collaborative research environments, contributing both as a lead investigator and as a team collaborator. His multidisciplinary expertise positions him as a key contributor to the advancement of high-performance, reliable, and sustainable energy storage technologies.

Resarch Focus

Dr. Hui Li’s research focuses on next-generation electrochemical energy storage systems, especially lithium-ion and sodium-ion batteries. His work emphasizes the design, synthesis, and performance optimization of cathode and anode materials, with a strong interest in environmentally friendly, high-safety, and high-capacity systems. He has investigated Prussian blue analogs, Na3V2(PO4)3-based materials, and layered oxides, contributing significantly to the advancement of aqueous sodium-ion batteries. A core aspect of his research is bridging fundamental material mechanisms with device-level applications, including Ah-level battery cells and full system integration for grid storage. Through collaborations with universities and enterprises, he has contributed to the development of a 102.96 kWh water-based sodium-ion battery energy storage system, demonstrating practical scalability. His current research explores material genome engineering, doping strategies, and advanced coatings to enhance battery stability, safety, and electrochemical performance. This integrated approach aims to accelerate the deployment of sustainable energy storage for renewable electricity and smart grid applications.

Awards & Recognitions

Hui Li’s outstanding academic and professional contributions have earned him several prestigious awards and recognitions. During his doctoral studies, he was honored with the National Ph.D. Scholarship , a distinction awarded to top-performing doctoral candidates across China. His doctoral thesis was further recognized with the Excellent Doctoral Dissertation Award from the Beijing Institute of Technology, an accolade given to only 25 scholars university-wide. He also received the Beijing Institute of Technology Seedling Fund, awarded to only 20 individuals, highlighting his research potential in innovative energy storage materials. Beyond academic honors, Hui Li was recognized as an Outstanding Individual during the State Grid New Employee Induction Training, reflecting his dedication and leadership in professional settings. These achievements underscore his commitment to excellence in research, education, and practical innovation, marking him as a leading scientist contributing to the advancement of sustainable energy storage and smart grid technologies.

Publication Top Notes

Title: Effects of Mg doping on the remarkably enhanced electrochemical performance of Na₃V₂(PO₄)₃ cathode materials for sodium-ion batteries
Authors: H. Li, X.Q. Yu, Y. Bai, F. Wu, C. Wu, L.Y. Liu, X.Q. Yang
Year: 2015

Title: Understanding the electrochemical mechanisms induced by gradient Mg²⁺ distribution of Na-rich Na₃₊ₓV₂₋ₓMgₓ(PO₄)₃/C for sodium-ion batteries
Authors: H. Li, H.M. Tang, C.Z. Ma, Y. Bai, J. Alvarado, B. Radhakrishnan, S.P. Ong, F. Wu, Y.S. Meng, C. Wu
Year: 2018

Title: Na-Rich Na₃₊ₓV₂₋ₓNiₓ(PO₄)₃/C for Sodium Ion Batteries: Controlling the Doping Site and Improving the Electrochemical Performances
Authors: H. Li, Y. Bai, C. Wu, F. Wu, X.F. Li
Year: 2016

Title: Budding willow branches shaped Na₃V₂(PO₄)₃/C nanofibers synthesized via an electrospinning technique and used as cathode material for sodium-ion batteries
Authors: H. Li, Y. Bai, F. Wu, Y. Li, C. Wu
Year: 2015

Title: Controllable synthesis of high-rate and long cycle-life Na₃V₂(PO₄)₃ for sodium-ion batteries
Authors: H. Li, C. Wu, Y. Bai, F. Wu, M.Z. Wang
Year: 2016

Conclusion:

Hui Li is a highly suitable candidate for the Research for Chemical Scientist Award. His research demonstrates a rare balance of fundamental innovation and applied outcomes, particularly in advancing sodium-ion and lithium-ion battery technologies for sustainable energy storage. His track record of publications, patents, and leadership in major funded projects positions him as an impactful researcher at the intersection of chemistry, materials science, and energy engineering.

While greater emphasis on independent international leadership and broader engagement could strengthen his profile, his achievements already place him among the promising chemical scientists driving forward solutions for global energy challenges. He is well-deserving of recognition through this award.

Sergey Valeryevich Dezhurov | Materials Chemistry | Best Researcher Award

Published on 19/07/202519/07/2025 by Chemical Scientist

Dr.Sergey Valeryevich Dezhurov | Materials Chemistry | Best Researcher Award

Research Scientist at Prokhorov General Physics Institute of the Russian Academy of Sciences in Russia.

🔬 Short Biography 🌿💊📚

👨‍🔬 Сергей Валерьевич Дежуров is a seasoned Russian chemist . With over 20 years of experience in the field of chemistry and nanotechnology 🧪, he has contributed significantly to scientific innovation. A graduate of Novosibirsk State University, Faculty of Natural Sciences (1996–2001), he specialized in chemistry and later pursued postgraduate studies in bioorganic chemistry 📘. His professional journey spans roles as a chemistry teacher, synthetic chemist, sales and technical manager, and senior research scientist. Currently affiliated with the Institute of General Physics (IOF RAS) and the Research Institute of Applied Acoustics (NIIPA), he focuses on luminescent materials, quantum dots, bioconjugates, and thin-film technologies 🔬. Sergey is the author of 20+ scientific publications and 4 patents, with deep involvement in international and Russian R&D projects. He is passionate about applying scientific knowledge to create real-world solutions, especially in advanced optics and sensor systems 🌍.

PROFILE

🔍 Summary of Suitability:

Sergey V. Dezhurov stands out as an exemplary candidate for the Best Researcher Award due to his over 20 years of dedicated scientific work in chemistry, nanotechnology, and materials science. His deep expertise in quantum dots, polymer composites, bioorganic chemistry, and optical materials has yielded breakthrough innovations with real-world impact. His experience spans both academic and industrial domains, showcasing versatility, technical depth, and strong leadership in high-tech R&D environments.

🔹 Education & Experience

🎓 Sergey Dежуров completed his undergraduate studies in chemistry at Novosibirsk State University (1996–2001) and advanced his knowledge through postgraduate studies in bioorganic chemistry and management courses 📚. His career began in education and laboratory roles before progressing into industrial research. Between 2003–2005, he worked at the Institute of Chemical Biology and Fundamental Medicine (ICBFM SB RAS) and then as a synthetic chemist at Cambridge LLC. From 2008 onwards, he held research and leadership roles in high-tech centers such as “Nanotech-Dubna” and NIIPA, focusing on quantum dots, polymeric materials, and optical sensors 🧪. He also contributed to technology commercialization and industrial process optimization. Since 2024, he has been working at the Institute of General Physics (IOF RAS) on thin-film technologies for microdisplays and solar cells 🌞. His versatile experience spans R&D, team leadership, and complex instrumentation, establishing him as an accomplished figure in chemical technology and nanomaterials 🌐.

🔹 Professional Development

🧑‍🔧 Sergey Dежуров’s professional development reflects a commitment to innovation, multidisciplinary collaboration, and continuous learning. He has mastered a variety of specialized software tools such as ChemOffice, OriginLab, and MultiChrom for analytical and synthetic chemistry applications 💻. His hands-on expertise covers organic and colloidal synthesis, design of thixotropic gels, development of bioconjugates, and surface modification of nanoparticles. He has independently acquired knowledge in optical and analytical instrumentation software and is proficient in spoken English 🌍. Sergey has played key roles in developing fluorescent microspheres for cytometry, FRET-based sensor systems, and new-generation luminescent materials. He led process engineering and team management in pilot production setups, demonstrating both technical and leadership skills 🧑‍🏫. His involvement in national and international grant-funded projects has further refined his strategic research and development abilities, keeping him at the cutting edge of applied chemistry, nanotechnology, and material science 🌟.

🏅 Awards and Recognitions

🏆 Co-author of more than 20 scientific publications in peer-reviewed journals
📚 Author of 4 patents in the field of luminescent materials and quantum dots
🎓 Contributor to national and international research projects and grants
🧪 Developer of innovative sensor systems using quantum dot-based FRET
🔬 Recognized for high-impact research in nano-optical materials and bioconjugates
🗣️ Regular participant and presenter at scientific conferences in Russia and abroad

🔬 Research Focus

🧪 Sergey Dежуров’s research is deeply rooted in nanomaterials chemistry, focusing on quantum dots, luminescent compounds, and advanced polymer systems. His work encompasses organic and colloidal synthesis, photoaffinity labeling of biomolecules, and bioconjugation techniques relevant to diagnostics and life sciences 💡. A key part of his research includes thin-film technologies for applications in microdisplays and solar cells, and the development of sensor systems based on FRET principles. Sergey has also designed high-stability semiconductor colloidal quantum dots and customized surface modifications for nanoparticles, tailoring properties like charge, polarity, and dispersibility ⚗️. His innovations support cutting-edge applications in optical sensing, nanobiotechnology, and materials engineering. By bridging chemistry with device-level implementation, his work contributes to the development of real-world technologies in areas like biosensors, optoelectronics, and photonics 🌈. His ongoing efforts ensure the evolution of intelligent, functional nanomaterials that drive future-oriented scientific solutions.

Publications & Citations 📚

📄 “Effect of combustion air humidification on the operation of a biomass boiler – Theoretical analysis” – Heliyon, 2025 | 📅 Published: 2025 | 🔁 Cited by: 0 | ✍️ Authors: Dlouhý, T.; Havlík, J.

📄 “Improving the energy effectivity of biomass drying for utilisation in energy systems by combining convective and contact drying” – Drying Technology, 2024 | 📅 Published: 2024 | 🔁 Cited by: 0 | ✍️ Authors: Havlík, J.; Dlouhý, T.

🔍 Conclusion:

With a unique blend of scientific creativity, technological innovation, and sustained impact, Sergey V. Dezhurov exemplifies the core values of the Best Researcher Award. His pioneering work in functional nanomaterials and sensor systems has contributed meaningfully to modern chemistry, nanotech-based diagnostics, and advanced materials engineering. His candidacy reflects excellence, leadership, and a forward-looking vision in scientific research .

RAJESWARAN | PHOTOCATALYSIS | Best Researcher Award

Published on 14/07/2025 by Chemical Scientist

Dr. P.RAJESWARAN | PHOTOCATALYSIS | Best Researcher Award

ASSOCIATE PROFESSOR at VEL TECH HIGH TECH Dr.RANGARAJAN Dr,SAKUNTHALA ENGINEERING COLLEGE,CHENNAI,TAMILNADU,India.

🔬 Short Biography 🌿💊📚

Dr. P. Rajeswaran 🎓 is an accomplished academician and researcher in the field of chemistry, with over 14 years of teaching experience in reputed institutions across Tamil Nadu, India 🇮🇳. Holding a Ph.D. in Chemistry with a specialization in Nanoscience and Nanotechnology 🧪 from Bharathiar University, his academic journey began with B.Sc. and M.Sc. degrees in Chemistry followed by an M.Phil. He is currently serving as Associate Professor of Chemistry at Vel Tech High Tech Engineering College, Chennai 🏫. His passion for research is reflected in over 28 SCI/Scopus-indexed publications 📄, spanning topics like photocatalysis, nanomaterials, and environmental remediation. A dedicated mentor and active R&D coordinator, Dr. Rajeswaran continues to shape the next generation of scientists while driving innovation through sustainable chemistry solutions 🌱🔬.

PROFILE

🔍 Summary of Suitability:

Dr. P. Rajeswaran is a highly accomplished researcher with over 14 years of academic experience and an exceptional track record in the fields of nanoscience, nanotechnology, and environmental chemistry. Holding a Ph.D. in Chemistry, his scholarly excellence is reflected through his prolific publication record—28 SCI/Scopus-indexed journal papers, over 323 citations, an h-index of 12, and consistent involvement in cutting-edge research. He has also supervised Ph.D. scholars, contributed to institutional research development, and secured internal research funding, underscoring his dedication to both discovery and mentorship.

🔹 Education & Experience

Dr. Rajeswaran’s academic path is steeped in chemical sciences 🧪. He completed his Ph.D. in Chemistry (Nanoscience and Nanotechnology) from Bharathiar University in 2018 🎓, with earlier degrees including an M.Phil. from Vinayaga Missions University and M.Sc./B.Sc. from NMS.S.V.N. College, Madurai 🎒. With 14.7 years of teaching experience 👨‍🏫, he has served in progressive academic roles—from Assistant Professor at institutions like King College of Technology and Mahendra Engineering College, to Associate Professor at Vel Tech High Tech Engineering College, Chennai 🏢. His practical experience in curriculum delivery, departmental leadership, and research supervision has been instrumental in advancing institutional and student success. As a recognized Ph.D. supervisor under Anna University, his teaching is deeply integrated with ongoing research in nanotechnology and materials science 🧬.

🔹 Professional Development

Dr. Rajeswaran is consistently engaged in professional development, participating in over 14 national and international conferences, workshops, and training sessions 🧑‍🏫🌍. He has presented and published on advanced topics including photocatalytic nanomaterials, dye-sensitized solar cells ☀️, and eco-friendly synthesis techniques for environmental remediation 🌿. Beyond participation, he has contributed as a coordinator of R&D initiatives and held leadership roles such as Head of Department and Discipline Committee Member 🏅. His dedication to evolving with scientific advancements is evident through his diverse academic collaborations and his role in organizing academic events at Vel Tech High Tech. Additionally, he secured research seed funding 💰 and published a patent on eco-friendly coconut soap formulation 🧼. Dr. Rajeswaran remains at the forefront of academic enrichment through sustained learning and institutional development 📚🔍.

🏅 Awards and Recognitions

🏆 Ph.D. Thesis Highly Commended – Bharathiar University (2018)
🎖️ Institute Seed Money Grant – ₹1,10,000 for DSSC project (2024)
📜 Published Patent – Eco-friendly coconut soap formulation (2022)
🧑‍🏫 Ph.D. Supervisorship – Recognized by Anna University
📈 Citations: 323 | h-index: 12 | i10-index: 14 – Google Scholar Metrics
📝 28 International Journal Publications – SCI/Scopus/WoS indexed
🗣️ Presented at 7+ International/National Conferences – Including on nanomaterials and smart chemistry
🧪 R&D Coordinator – Vel Tech High Tech Engineering College

🔬 Research Focus

Dr. Rajeswaran’s research focus lies primarily in Nanoscience and Nanotechnology 🔬, with applications in environmental remediation, photocatalysis, and energy storage devices 🔋. His doctoral and postdoctoral work centers around the synthesis of pure and doped SnO₂ nanoparticles using microwave-assisted techniques, exploring their structural, optical, and catalytic properties 🌈🧪. He has made notable contributions to green chemistry and sustainable solutions by developing nanomaterials for the degradation of toxic dyes and organic pollutants in wastewater 🌍💧. His work extends to graphene-based hybrid materials for supercapacitors and dye-sensitized solar cells, reflecting his interest in renewable energy systems ☀️⚡. Dr. Rajeswaran’s approach blends experimental chemistry with materials engineering to address pressing environmental and energy challenges through nanotechnology, making his research impactful across both academic and industrial domains 🧠⚙️.

Publications & Citations 📚

📘 Influence of Mn doping on SnO₂ nanoparticles (gas sensing) – 43 citations, 🗓️ 2015
🧪 Chitosan–CeO₂–CuO composites for dye degradation & microbial study – 38 citations, 🗓️ 2024
🧫 Mn-doped SnO₂ nanoparticles for Congo red degradation – 29 citations, 🗓️ 2023
⚡ WO₃/Graphene hybrid for solar cells – 22 citations, 🗓️ 2021
🔋 NiMoO₄@rGO for asymmetric supercapacitors – 21 citations, 🗓️ 2023
💧 Chitosan–ZrO₂–CeO₂ for water remediation – 20 citations, 🗓️ 2023
🌞 SnO₂–ZnO heterojunctions for dye & Cr(VI) degradation – 19 citations, 🗓️ 2024
💡 SnO₂/CoFe₂O₄ nanocomposite for wastewater treatment – 19 citations, 🗓️ 2024
🧬 W⁶⁺ doped SnO₂ nanoparticles (photocatalysis) – 16 citations, 🗓️ 2016
☀️ Graphene-modified CeO₂ for DSSCs – 15 citations, 🗓️ 2020
🔆 Zn-doped SnO₂ nanoparticles (photocatalytic activity) – 14 citations, 🗓️ 2015
🌿 Gelatin–Alginate–CeO₂ hydrogel for biological use – 13 citations, 🗓️ 2024
🔋 NiCoP@rGO for asymmetric supercapacitors – 12 citations, 🗓️ 2023
🌞 Al₂O₃/Graphene for solar cells via microwave – 12 citations, 🗓️ 2020
🔋 NiMn₂O₄@rGO hybrids for supercapacitors – 10 citations, 🗓️ 2023

🔍 Conclusion:

✅ Dr. P. Rajeswaran is highly suitable for the Best Researcher Award. His sustained contributions to applied nanoscience, environmental remediation, and energy materials, paired with leadership in academia and innovation, make him an exemplary candidate who embodies the spirit of research excellence and societal impact.

Prof. Jinhui Zhao| Environmental Chemistry| Best Researcher Award

Published on 12/06/202513/06/2025 by Chemical Scientist

Prof. Jinhui Zhao| Environmental Chemistry| Best Researcher Award

Director of the Research Institute at Nanjing Tech University, China.

🔬 Short Biography 🌿💊📚

Dr. Jinhui Zhao is an Associate Professor at Nanjing Tech University specializing in environmental chemistry and water treatment technologies. With a Ph.D. in Environmental Engineering, he has published over 50 research articles, including 15 SCI-indexed papers, and holds 10 patents related to pollutant removal and sustainable water systems. His work focuses on the migration and transformation of contaminants in aquatic environments and the development of eco-friendly treatment methods. Dr. Zhao has led multiple national and industrial research projects and actively contributes to innovative solutions for global environmental challenges.

PROFILE

🔍 Summary of Suitability:

Dr. Zhao Jinhui stands out as an applied environmental scientist with impactful research on water treatment technologies and pollutant migration. His work bridges environmental chemistry, public health, and sustainable engineering. His integration of theory with practical applications and industry relevance marks him as a leader in his field. With publications, patents, awards, and high-profile collaborations, he demonstrates a robust and balanced academic profile.

📘 Education

Professor Zhao Jinhui holds a solid academic foundation in environmental and chemical engineering sciences, which has guided his path into research and higher education. He has pursued advanced training in water environmental chemistry and related technologies, which laid the groundwork for his specialization in pollutant behavior and water resource management. His educational background also supports his active role in publishing professional books and developing technical standards in environmental science. This comprehensive academic journey has been instrumental in shaping his expertise in water treatment and sustainability.

Professional Experience

With over a decade of professional and academic experience, Professor Zhao serves as an Associate Professor at Nanjing Tech University. He has led five research projects and completed more than 60 consultancy and industry collaborations, particularly focusing on water treatment, reclaimed water utilization, and pollutant migration. Zhao’s practical expertise extends beyond academia, demonstrated through his leadership in large-scale projects such as those under China’s 863 Program. His innovations have translated into real-world applications, especially in the implementation of constructed wetland technologies for wastewater treatment and power generation, solidifying his role as a leader in applied environmental research.

Skills and Competencies

Zhao Jinhui’s key skills include water quality analysis, advanced water treatment technologies, pollutant migration modeling, and constructed wetlands optimization. His ability to bridge chemical engineering principles with biological systems sets him apart in environmental sustainability research. He also exhibits strong project management and consultancy skills, having led high-impact industry collaborations.

Research Focus 🔍🤖

Professor Zhao Jinhui’s research centers on water environmental chemistry, with a strong emphasis on sustainable water treatment technologies and pollutant behavior in aquatic systems. He investigates the recycling and reuse of reclaimed water and rainwater, aiming to improve water security and environmental protection. A major aspect of his work involves studying the migration and transformation of organic and inorganic pollutants during various treatment processes, including advanced oxidation and constructed wetlands. His interdisciplinary approach combines chemical, biological, and engineering techniques to enhance pollutant removal efficiency while promoting eco-friendly practices. Zhao’s research contributes significantly to water sustainability and green innovation.

Awards and Honors 🏆🎖️

Zhao received the Third Prize in Science and Technology from the China General Chamber of Commerce for his contributions to constructed wetlands for wastewater treatment and energy generation. His applied research has significantly influenced environmental engineering practices in China.

Publications & Citations 📚

Title: Comparison of Field Infiltration Test Methods for Permeable Pavement: Toward a Further Easy and Accurate Method
Journal: Clean – Soil, Air, Water
DOI: 10.1002/clen.201900174
Authors: Zhao, Jinhui
Year: 2019
Title: Water and energy saving potential by adopting pressure-reducing measures in high-rise building: A case analysis
Journal: Building Services Engineering Research and Technology
DOI: 10.1177/0143624417751056
Authors: Zhao, Jinhui
Year: 2018
Title: A fancy eco-compatible wastewater treatment system: Green Bio-sorption Reactor
Journal: Bioresource Technology
DOI: 10.1016/j.biortech.2017.03.037
Authors: Zhao, Y.; Liu, R.; Zhao, J.; Xu, L.; Sibille, C.
Year: 2017
Title: Advanced treatment of actual textile dye wastewater by Fenton-flocculation process
Journal: Canadian Journal of Chemical Engineering
DOI: 10.1002/cjce.22752
Authors: Xiao, X.; Sun, Y.; Sun, W.; Shen, H.; Zheng, H.; Xu, Y.; Zhao, J.; Wu, H.; Liu, C.
Year: 2017
Title: Constructed wetland integrated microbial fuel cell system: Looking back, moving forward
Journal: Water Science and Technology
DOI: 10.2166/wst.2017.190
Authors: Wang, Y.; Zhao, Y.; Xu, L.; Wang, W.; Doherty, L.; Tang, C.; Ren, B.; Zhao, J.
Year: 2017
Title: Embedding constructed wetland in sequencing batch reactor for enhancing nutrients removal: A comparative evaluation
Journal: Journal of Environmental Management
DOI: 10.1016/j.jenvman.2017.01.080
Authors: Liu, R.; Zhao, Y.; Zhao, J.; Xu, L.; Sibille, C.
Year: 2017
Title: Agricultural runoff pollution control by a grassed swales coupled with wetland detention ponds system: A case study in Taihu Basin, China
Journal: Environmental Science and Pollution Research
DOI: 10.1007/s11356-016-6150-2
Authors: Zhao, J.; Zhao, Y.; Zhao, X.; Jiang, C.
Year: 2016
Title: Highway runoff treatment by hybrid adsorptive media-baffled subsurface flow constructed wetland
Journal: Ecological Engineering
DOI: 10.1016/j.ecoleng.2016.02.020
Authors: Zhao, J.; Zhao, Y.; Xu, Z.; Doherty, L.; Liu, R.
Year: 2016
Title: UV/TiO₂ photocatalytic disinfection of carbon-bacteria complexes in activated carbon-filtered water: Laboratory and pilot-scale investigation
Journal: Journal of Environmental Science and Health, Part A: Toxic/Hazardous Substances and Environmental Engineering
DOI: 10.1080/10934529.2015.1055155
Authors: Zhao, J.H.; Chen, W.; Zhao, Y.; Liu, C.; Liu, R.
Year: 2015

🔍 Conclusion:

Highly suitable for the Best Researcher Award. Dr. Zhao’s contributions in environmental chemistry and sustainable water systems have tangible societal benefits and scientific depth. Strategic international engagement and editorial roles would further amplify his already strong research trajectory.

Zeinab Rohani Sarvestani | Computational Chemistry | Best Researcher Award

Published 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

🔍 Summary of Suitability:

Dr. Rohani Sarvestani brings together strong academic credentials with a robust portfolio of interdisciplinary research and real-world application. Holding a Ph.D. in Inorganic Chemistry with a GPA of 19.38/20, she has over a decade of experience spanning academia, laboratory management, and industrial standardization. Her key contributions include:

🎓 Education and Experience 👩‍🏫

🎓 Education:

📘 Ph.D. in Inorganic Chemistry, Persian Gulf University (2016–2025) – GPA: 19.38/20
📘 M.Sc. in Inorganic Chemistry, Isfahan University of Technology (2005–2007) – GPA: 16.20/20
📘 B.Sc. in Pure Chemistry, Shiraz University (2001–2005) – GPA: 15.30/20

💼 Professional Experience:

🧪 Senior Chemist & Technical Director, Pars Sahel Bushehr Co. (2012–Present)
👩‍🏫 Lecturer, University of Applied Science and Technology (2022–Present)
🛠️ Standardization Specialist, Porsa Payesh & Pasanj Co. (2019–2024)
🧫 Research & Technical Supervisor, Darya Services Consulting Co. (2022–2023)
🧪 Quality Control Manager, Sarv ab Co. (2011–2012)
👩‍🏫 High School Chemistry Teacher, Kharazmi School (2012–2014)

Professional Development 🚀📖

Dr. Rohani Sarvestani has actively pursued professional excellence through a blend of research, training, and certification. She holds numerous certifications in ISO/IEC 17025, GLP, and statistical quality control, and has been trained in molecular simulation software like GROMACS. Her participation in educational management and project control reflects her commitment to leadership in both lab and academic settings. 🧑‍🔬📚 She frequently engages in interdisciplinary projects and stays aligned with international standards. Her dual roles as a technical director and university lecturer showcase her dedication to continual improvement and innovation in chemical research and quality assurance. 🧪🔬💡

Research Focus 🔍🤖

Dr. Zeinab Rohani Sarvestani focuses on inorganic and computational chemistry with a strong interest in drug design for Alzheimer’s disease and polymer quality standards. 🧬🧠 Her research integrates theoretical chemistry with molecular modeling to design bioactive compounds, especially platinum–curcumin complexes targeting amyloid fibrils. In industry, she applies her expertise to improve polymer profiles used in various applications, ensuring their compliance with international standards. She actively bridges academic and industrial research through collaborative R&D projects, reinforcing her status as a dynamic, problem-solving scientist. 🧪🔬 Her work lies at the intersection of health, materials science, and chemical innovation. 🧫🧠🔍

Awards and Honors 🏆🎖️

🎓 Top Ph.D. Student, Persian Gulf University – 2017
🏅 Model Quality Control Manager, Bushehr Province – 2017

Publications & Citations 📚

🧪 “π-Stacking Interactions between Curcumin and Aromatic Rings of Amino Acids in Amyloid Fibrils” – Computational and Theoretical Chemistry, 2023, [Cited by: Google Scholar] 📅🧠
🔗 https://doi.org/10.1016/j.comptc.2023.114175
🧬 “Evaluation of Inhibition Potential of Platinum(II)–Curcumin Complex on Aβ(1–42) Aggregation: Docking and Molecular Dynamics Simulation” – ChemistrySelect, 2025, [Cited by: Google Scholar] 📅🧪
🔗 https://doi.org/10.1002/slct.202402892

✅ Conclusion

Dr. Zeinab Rohani Sarvestani exemplifies the qualities of a best-in-class researcher—academic excellence, practical innovation, scientific publication, and leadership. Her diverse and high-impact work in both theoretical and applied chemistry not only advances science but also supports public health and industrial standards. She is a strong and deserving candidate for the Best Researcher Award. 🥇🔬📘

Sehrish Sarfaraz | Computational Chemistry | Best Scholar Award

Published on 22/04/202522/04/2025 by Chemical Scientist

Dr. Sehrish Sarfaraz | Computational Chemistry | Best Scholar Award

PhD scholar at COMSATS university Islamabad abbottabad campus , Pakistan.

Dr. Sehrish Sarfaraz 🎓 is a dedicated computational chemist 🧪 and lecturer 👩‍🏫 at the Higher Education Department, KP, Pakistan. With a Ph.D. in Chemistry from COMSATS University Islamabad 🏛️, her research delves into advanced areas like single atom catalysis, hydrogen evolution reaction, and drug delivery systems 💊. She has authored impactful publications 📚 in high-impact journals and actively contributes to scientific symposiums 🌐. Dr. Sarfaraz excels in using computational tools to explore nanostructures and catalytic mechanisms 💻⚛️. Her passion for innovation and education is evident in her teaching, community involvement, and interdisciplinary collaborations 🤝.

PROFILE

🔍 Summary of Suitability:

Dr. Sehrish Sarfaraz exemplifies academic excellence, interdisciplinary innovation, and impactful research in the field of computational chemistry and nanomaterials. She has pursued and nearly completed a Ph.D. with a research focus on single atom catalysis, hydrogen evolution reactions, and drug delivery systems. Her strong publication record—over 16 peer-reviewed papers with a cumulative impact factor of 251—reflects her significant scholarly contributions. With 12 first-author publications, an h-index of 13, and frequent recognition in scientific conferences, she demonstrates both productivity and thought leadership in her field. She is also actively engaged in scientific events, workshops, and community outreach, contributing to knowledge dissemination and professional growth.

🔹 Education & Experience

🎓 Education:

📘 Ph.D. in Chemistry (2021–2024) – COMSATS University Islamabad, Abbottabad
📘 M.Sc. in Chemistry (2018–2020) – COMSATS University Islamabad, Abbottabad
📘 B.Sc. in Chemistry (2013–2017) – Hazara University Mansehra

💼 Experience:

👩‍🏫 Lecturer in Chemistry (2023–Present) – Higher Education Department, KP
🔬 Ph.D. Researcher – COMSATS University Islamabad, Abbottabad (Computational Chemistry Group)
🧪 M.Sc. Researcher – IRCBM, Lahore Campus (Bone Repair & Regeneration)

Professional Development 🚀📖

Dr. Sehrish Sarfaraz has shown unwavering commitment to professional growth 📈. She has participated in numerous international conferences 🗣️ and symposiums, where she presented her innovative research in catalysis and biomedical materials 🧬. Her dedication extends to workshops in machine learning 🧠, computational biology 🔬, and energy materials ⚡. These experiences have honed her communication, research, and digital skills 💡. From mastering advanced DFT tools like Gaussian and VASP 💻 to gaining hands-on experience with analytical techniques like SEM, FTIR, and UV-Vis spectroscopy 🔍, she continuously pushes the boundaries of scientific excellence 🚀.

Research Focus 🔍🤖

Dr. Sarfaraz’s research is deeply rooted in computational chemistry 🧪💻, especially focused on density functional theory (DFT) to study single atom catalysis (SACs), hydrogen evolution reactions (HER), and nanostructured materials ⚛️. She explores the electronic properties, stability, and reactivity of metal-doped fullerenes and nanocages for green energy applications 🔋. Her work also intersects with drug delivery, nonlinear optical materials, and environmental sensing 🌍. By simulating complex molecular systems, she contributes to a deeper understanding of catalytic mechanisms and energy-efficient materials 🌿🔬. Her interdisciplinary approach bridges chemistry, materials science, and biomedical engineering 🤝.

Awards and Honors 🏆🎖️

🏆 Awards & Recognitions:

🥇 Best Oral Presenter Award – 16th International Symposium on Advanced Materials (ISAM), 2019
🥈 Best Poster Presentation Shield – 7th International Symposium on Biomedical Materials (ISBM), 2019
📜 Multiple Certificates – Participation in workshops on Machine Learning, Computational Biology, Energy Materials, and more

Publications & Citations 📚

DFT investigation of adsorption of nitro-explosives over C2N surface – 53 citations, 2022 🔬💣
Computational investigation of a covalent triazine framework (CTF-0) as an electrochemical sensor – 41 citations, 2022 ⚗️📈
CTF-0 surface for detection of CWAs and industrial pollutants – 33 citations, 2022 ☢️🏭
Efficient detection of nerve agents via carbon nitride quantum dots – 31 citations, 2023 🧪🧠
Imidazolium ionic liquids with carbon nitride electrodes in supercapacitors – 31 citations, 2023 ⚡🧫
Single Atom Catalyst (Fe, Co, Ni) on C2N for H₂ dissociation – 23 citations, 2022 ⚙️🧯
Enhanced NLO response of calix[4]pyrrole-based earthides under EEF – 22 citations, 2022 💡🌐
Metallofullerene (M@C60) for hydrogen evolution reaction – 20 citations, 2024 🌍🚀
H₂ dissociation on TM-doped C24 nanocage SACs – 19 citations, 2023 🔩🧬
Functionalized SWCNT with sulfide ions: DFT study – 16 citations, 2022 🧵⚛️
TM-Doped C20 Fullerene SACs for H₂ dissociation – 15 citations, 2023 🧠🔬
Cavitand nanocapsule for 5-FU drug delivery: DFT insights – 14 citations, 2024 💊📦
TM-doped C20 fullerene for HER electrocatalysis – 14 citations, 2023 🧪💥
Supramolecular reduction of nitro compounds in cucurbit[7]uril – 14 citations, 2023 🧊🔻
36Adz-based alkaline earthides with NLO response – 14 citations, 2023 💠📡
TM-doped C24 electrocatalysts for HER: Thermodynamics/Kinetics – 13 citations, 2023 ⚛️⏱️
Catalysis in porous organic cage CC2: Transformation/inhibition – 13 citations, 2022 🧴🚧
Ionic liquids interaction with porous vs non-porous electrodes – 12 citations, 2023 💧⚙️
Thiourea analogues as β-glucuronidase inhibitors + docking – 12 citations, 2022 🧬🧫
15-crown-5 ether earthides with NLO response – 11 citations, 2022 👑🔆

🔍 Conclusion:

In conclusion, Dr. Sehrish Sarfaraz not only meets but exceeds the criteria for the Best Scholar Award 🏆. Her research contributions have direct implications for global challenges in energy sustainability, health care, and environmental protection 🌍. With an outstanding blend of academic rigor, innovation, and professional integrity, she is a prime candidate to receive recognition for her scholarly excellence and future potential.

Diana Elena Ciolacu | Polymer Chemistry | Best Researcher Award

Published on 22/04/202522/04/2025 by Chemical Scientist

Dr. Diana Elena Ciolacu | Polymer Chemistry | Best Researcher Award

Senior Researcher at Petru Poni Institute of Macromolecular Chemistry , Romania.

Dr. Diana Elena Ciolacu is a Senior Researcher at the “Petru Poni” Institute of Macromolecular Chemistry, Romanian Academy, specializing in bioactive and biocompatible materials. With a Ph.D. from “Georghe Asachi” Technical University of Iasi, her research focuses on cellulose-based hydrogels for medical applications. She has authored over 59 scientific articles, including patents and books, and has participated in multiple international fellowships and exchanges. Recognized for her contributions, she actively leads research projects and contributes to academic publications. Her expertise has significantly advanced polymer-based materials for healthcare. 🧬📚🔬💡

PROFILE

🔍 Summary of Suitability:

Dr. Diana Elena Ciolacu exemplifies excellence in scientific research, especially in the field of natural polymers and biocompatible materials. With over 59 scientific publications (45 in ISI-indexed journals), 9 patents, and 16 book chapters, her academic output is substantial and impactful. Her research has wide-reaching applications in medical science, particularly in hydrogels for drug delivery and tissue engineering, showing clear societal benefit. Her international collaborations, multiple fellowships, and leadership in large-scale research projects further solidify her status as a global contributor to science. 🌍📚🔬

Education & Experience

PhD in Industrial Chemistry – “Georghe Asachi” Technical University of Iasi, Romania, 2005 🎓
Master of Engineering – “Georghe Asachi” Technical University of Iasi, Romania, 1995 🎓
Chemical Engineer – “Georghe Asachi” Technical University of Iasi, Romania, 1994 🎓
Senior Researcher – “Petru Poni” Institute of Macromolecular Chemistry, Romanian Academy, 2006–present 🧑‍🔬

Professional Development 🚀📖

Dr. Diana Elena Ciolacu has extensively participated in professional development opportunities, gaining valuable insights through various fellowships and interacademic exchanges across Europe. Notable fellowships include the Socrates-Erasmus Program in Germany, Marie-Curie Fellowship in Slovenia, and several exchanges in Spain, France, and Poland. These experiences have allowed her to enhance her expertise in natural polymers and bioactive materials. Additionally, she has participated in several summer schools focused on green chemistry, nanotechnology, and biomaterials. These international programs have enriched her research perspective and fostered collaborative ties with leading institutions globally. 🌍📈🔬🧪

Research Focus 🔍🤖

Dr. Diana Ciolacu’s research primarily focuses on cellulose-based hydrogels and their medical applications. Her work explores the design, structure-related properties, and biocompatibility of polysaccharide networks for use in controlled drug release, tissue engineering, and wound healing. She also investigates the modification of natural polymers like cellulose and lignin for creating sustainable, functional materials. Her efforts aim to develop innovative biopolymer-based solutions that can improve healthcare outcomes through safer, more effective medical treatments. Through her research, she contributes significantly to advancing biocompatible materials for diverse biomedical applications. 🧬🌱💉🔬

Awards and Honors 🏆🎖️

Marie-Curie Fellowship for Transfer of Knowledge – University of Maribor, Slovenia 🎖️
Socrates-Erasmus Fellowship – Heinrich Heine University, Germany 🎖️
STREAM Fellowship – Mines ParisTech, France 🎖️
POSDRU Fellowship – University of Barcelona, Spain 🎖️
Project Manager for Innovative Biopolymer-Based Hydrogels Project (MATINOV) 🎖️
Guest Editor for Multiple Research Journals – Including Materials and Gels 📚

Publications & Citations 📚

- 📘 Amorphous cellulose—structure and characterization – 1039 citations, 2011
  
  💧 New cellulose–lignin hydrogels and their application in controlled release of polyphenols – 247 citations, 2012
  
  💊 Cellulose-based hydrogels as sustained drug-delivery systems – 188 citations, 2020
  
  🧬 The effect of the cellulose-binding domain from Clostridium cellulovorans on the supramolecular structure of cellulose fibers – 152 citations, 2010
  
  ❄️ Physically and chemically cross-linked cellulose cryogels: Structure, properties and application for controlled release – 132 citations, 2016
  
  🧪 Advanced functional materials based on nanocellulose for pharmaceutical/medical applications – 92 citations, 2021
  
  🧴 Synthesis and characterization of polyvinyl alcohol/cellulose cryogels and their testing as carriers for a bioactive component – 86 citations, 2012
  
  🧁 Biosynthesis of dextran by Weissella confusa and its In vitro functional characteristics – 84 citations, 2018
  
  🩺 Cellulose-based hydrogels for medical/pharmaceutical applications – 81 citations, 2018
  
  🔬 Enzymatic hydrolysis of different allomorphic forms of microcrystalline cellulose – 55 citations, 2011
  
  🕸️ Semi-interpenetrating polymer networks containing polysaccharides. I Xanthan/Lignin networks – 53 citations, 2007
  
  ❤️ Natural polymers in heart valve tissue engineering: strategies, advances and challenges – 48 citations, 2022

🔍 Conclusion:

Dr. Diana Elena Ciolacu stands out as an exemplary researcher whose body of work combines academic rigor, innovation, and real-world applicability. Her sustained contributions to the field of macromolecular chemistry—especially in biomedical applications—make her an ideal candidate for the Best Researcher Award. She not only advances science but also creates tangible benefits for healthcare and sustainability. 🌟👏

Jiming Bian | Physical Chemistry | Best Researcher Award

Published on 17/04/202517/04/2025 by Chemical Scientist

Prof. Jiming Bian | Physical Chemistry | Best Researcher Award

Professor at Dalian University of Technology in China.

Prof. Jiming Bian 🧑‍🔬, a leading researcher at Dalian University of Technology 🇨🇳, earned his Ph.D. from the Shanghai Institute of Ceramics in 2005. Specializing in emerging semiconductors ⚛️, he has spearheaded major projects on perovskite LEDs and optoelectronic devices. With over 200 publications 📚 and an impressive H-index of 39, his work is globally recognized, including four ESI hot/highly cited papers 🔬. A recipient of multiple science and technology awards 🏆, he also holds 10 patents and collaborates internationally 🌍. His innovation in carbon-based PSCs achieved record-breaking performance ⚡, pushing boundaries in solar technology ☀️.

Professional Profile