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

GOOGLE SCHOLAR

SCOPUS

🔍 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 🧬.

Sehrish Sarfaraz | Computational Chemistry | Best Scholar Award

Posted 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

GOOGLE SCHOLAR

SCOPUS

🔍 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.

Su Jin Kim | Separation Process | Best Researcher Award

Posted on 22/04/202522/04/2025 by chemical Scientist

Prof. Dr. Su Jin Kim | Separation Process | Best Researcher Award

professor at Department of Chemical & Biological Engineering/Chungwoon University , South Korea.

Prof. Dr. Su Jin Kim 🇰🇷 is a distinguished chemical engineer and professor at Chungwoon University 🏫. With a Ph.D. from the Tokyo Institute of Technology 🎓, she has dedicated over two decades to advancing separation processes in chemical engineering ⚗️. Her research has led to innovative energy-saving extraction and purification methods 💡. She has completed 17 major research projects and published 35+ papers in renowned journals 📚. Prof. Kim continues to contribute to both academic and industrial progress through her cutting-edge consultancy projects and passion for chemical science innovation 🔬🌟.

PROFILE

GOOGLE SCHOLAR

SCOPUS

🔍 Summary of Suitability:

Prof. Dr. Su Jin Kim exemplifies the qualities of an exceptional researcher with a career spanning over three decades in chemical engineering 🧪. She holds a Ph.D. from the prestigious Tokyo Institute of Technology 🎓 and has served as a professor at Chungwoon University since 1997. Her research portfolio boasts 35 publications in high-impact SCIE and Scopus journals 📚, 17 completed projects, and extensive contributions to both academia and industry through 12 consultancy projects 🤝. Her work has significantly advanced energy-efficient, environmentally sustainable separation and purification techniques 🌱.

Education & Experience

🧪 Ph.D. in Chemical Engineering – Tokyo Institute of Technology, Japan (1992.4 – 1995.3)
🔬 Researcher – Tokyo Institute of Technology, Dept. of Chemical Engineering (1988.10 – 1990.3)
🧑‍🔬 Postdoctoral Researcher – Korea Research Institute of Chemical Technology (1995.4 – 1997.2)
👩‍🏫 Professor – Chungwoon University, South Korea (1997.3 – Present)

Professional Development 🚀📖

Prof. Kim’s professional journey showcases remarkable dedication to both education and research development 📚💼. As a long-serving professor, she mentors students and conducts cutting-edge experiments in separation science 🔍. She’s actively engaged in both academic and industrial research, contributing to 12 industry projects and publishing extensively in SCI and Scopus-indexed journals 📄. Her collaborations span Korea and Japan, reflecting a strong international network 🌍. Her scientific output includes pioneering work in high-purity purification processes and solvent extraction technologies, ensuring continued innovation in chemical engineering 🧪🛠️.

Research Focus 🔍🤖

Prof. Kim’s research is centered on separation and purification processes 🔬—critical areas in chemical and biological engineering. She has advanced technologies for removing nitrogen compounds, recovering indole, and purifying 2,6-dimethylnaphthalene from coal tar and light cycle oil 🛢️💧. Her work enables environmentally friendly and energy-efficient alternatives to traditional distillation, helping to upgrade fuels and recycle waste plastics ♻️. With 35 journal publications and 17 completed projects, she continues pushing the boundaries of sustainable chemical processing 🧫⚗️. Her studies bridge academic insights and industrial applications, focusing on high purity and efficiency 🌱🔍.

Awards and Honors 🏆🎖️

🥇 Nominated for Best Researcher Award – International Chemical Scientist Awards 2025
🏆 Recognized for High-impact publications in SCI & Scopus-indexed journals (35 total)
📊 Principal Investigator on 17 completed and 1 ongoing research projects
🔧 Contributor to 12 industry-related projects, bridging academia and industry
🎖️ Citation Index presence in SCIE and Scopus databases, confirming global recognition

Publications & Citations 📚

📅 2024 – Study on removal of nitrogen-containing heterocyclic compounds… – SCIE, cited by SCIE/Scopus 📈
📅 2024 – Enrichment of indole by n-hexane re-extraction… – Scopus, cited by Scopus 📊
📅 2024 – Comparison of extraction solvents on separation performance of indole… – Scopus, cited by Scopus 🔬
📅 2023 – Experimental study on enrichment of indole in wash oil… – SCIE, cited by SCIE 🔎
📅 2023 – Effect of experimental factors on reduction of nitrogen compounds… – Scopus, cited by Scopus 🧪
📅 2022 – Purification of indole in wash oil via extraction and crystallization… – SCIE, cited by SCIE 🧫
📅 2022 – Reduction of nitrogen compounds in methylnaphthalene oil (I & II) – Scopus, cited by Scopus 📘
📅 2021 – Upgrading of wash oil through nitrogen compound reduction – SCIE, cited by SCIE ♻️
📅 2020 – Improvement of distillate from waste plastic pyrolysis oil… – SCIE, cited by SCIE 🌍
📅 2019 – Purification of 2,6-DMN from light cycle oil… – SCIE, cited by SCIE 🧬
📅 2019 – Separation of indole in coal tar model system… – SCIE, cited by SCIE ⚗️
📅 2019 – Quality improvement of pyrolysis oil via DMF extraction – Scopus, cited by Scopus 🔄
📅 2018 – Purification of 2,6-DMN via crystallization – Scopus, cited by Scopus ❄️
📅 2018 – Recovery of paraffins from pyrolysis oil by 4-stage extraction – Scopus, cited by Scopus 🛢️
📅 2016 – Separation of nitrogen compounds using methanol vs. formamide – SCIE, cited by SCIE 🔍
📅 2015 – Methanol/formamide extraction comparison – Scopus, cited by Scopus 💧
📅 2014 – High-purity purification of indole (coal tar) – Scopus, cited by Scopus 🧴
📅 2014 – Methanol extraction in 9-compound system – Scopus, cited by Scopus 🧪
📅 2014 – Crystallization of DMN isomers – Scopus, cited by Scopus 🧊
📅 2012 – Vapor-liquid equilibria studies (various systems) – SCIE, cited by SCIE 🌡️
📅 2012 – Vapor-liquid equilibria in glycol ether systems – SCI, cited by SCI 🌫️
📅 2010 – Liquid membrane permeation of nitrogen compounds – SCI, cited by SCI 🧬
📅 2010 – Indole separation via crystallization – Scopus, cited by Scopus 🧼
📅 2008 – Purification of 2,6-DMN by crystallization – Scopus, cited by Scopus ❄️
📅 2007 – Recovery of indole via 5-stage extraction – Scopus, cited by Scopus 🔄
📅 2005 – Solvent extraction of nitrogen heterocyclics – SCI, cited by SCI 🔬
📅 2004 – Bicyclic aromatic separation by liquid membrane – SCI, cited by SCI 🧫
📅 2003 – DMN isomer recovery by distillation-extraction – SCI, cited by SCI 🧪
📅 2003 – Recovery of bicyclic aromatics in LCO – SCI, cited by SCI 🛢️
📅 2001 – Scale-up of stirred tank contactors for membrane permeation – SCI, cited by SCI ⚙️
📅 1998 – Polypropylene morphology by crystallization – SCIE, cited by SCIE ❄️
📅 1998 – Membrane vs. solvent extraction in aromatic separation – Scopus, cited by Scopus 🧃
📅 1997 – Hydrocarbon separation by surfactant membrane – SCI, cited by SCI 💡

🔍 Conclusion:

Prof. Su Jin Kim meets and exceeds the benchmarks expected of a Best Researcher Award recipient. Her innovative, sustainable, and impactful research in chemical separation processes—combined with a strong academic publishing track record and industry relevance—make her a top candidate for the honor 🥇. Her contributions not only advance chemical engineering but also serve broader societal goals such as environmental sustainability and energy efficiency 🌍.

Jiming Bian | Physical Chemistry | Best Researcher Award

Posted 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

ORCID

SCOPUS

🔍 Summary of Suitability:

Prof. Jiming Bian is an outstanding candidate for the Best Researcher Award due to his exceptional contributions to the field of materials science and optoelectronic devices ⚛️. With a Ph.D. from the prestigious Shanghai Institute of Ceramics and his role as Professor at Dalian University of Technology 👨‍🏫, he has consistently delivered impactful research with real-world applications. His work demonstrates innovation, scientific excellence, and international recognition 🌍.

🎓 Education

📍 Ph.D. in Materials Science (2005)
Shanghai Institute of Ceramics, Chinese Academy of Sciences, China 🇨🇳

💼 Professional Experience

👨‍🏫 Professor & Ph.D. Supervisor
Dalian University of Technology, China 🇨🇳
🔬 Research Specialization:
Growth, electro-optical conversion, and device application of emerging semiconductors ⚛️
📈 Research Achievements:
- Published over 200 peer-reviewed articles in top journals like Joule, ACS Energy Letters, and Energy & Environmental Science 📚
- Holds 10 published patents 🧾
- H-index of 39 (Scopus) 📊
- 4 papers recognized as ESI hot or highly cited 🔥
🤝 Global Collaborations:
- UCLA (USA) 🇺🇸
- Sungkyunkwan University (South Korea) 🇰🇷
- EPFL (Switzerland) 🇨🇭
🏆 Honors & Awards:
- Liaoning Province Excellent Postgraduate Tutor 🧑‍🎓
- Multiple provincial & ministerial science and tech awards 🥇

Professional Development 🚀📖

Prof. Jiming Bian has steadily advanced in the field of materials science and semiconductor research ⚛️. After earning his Ph.D. 🎓 in 2005, he has become a prominent professor and Ph.D. supervisor 👨‍🏫 at Dalian University of Technology. His journey includes leading several national and provincial research projects 🔬, publishing over 200 articles 📚, and securing 10 patents 🧾. With an H-index of 39 📊 and international collaborations 🌍, he contributes to pioneering technologies like perovskite LEDs and solar cells ☀️. His editorial and scientific roles further establish him as a respected leader in electro-optical innovation 🏅.

Research Focus 🔍🤖

Prof. Jiming Bian’s research focuses on emerging semiconductors and their applications in optoelectronic devices ⚡. He specializes in the growth, charge transport, and electro-optical conversion of materials like perovskites 🧪. His innovative work on carbon-based perovskite solar cells (C-PSCs) ☀️ addresses major stability issues and has achieved world-record power conversion efficiency 📈. Additionally, his modular configurations improve device flexibility 🔁 and longevity. His expertise spans the fields of materials science, photovoltaics, and flexible electronics, contributing to green energy technologies 🌱 and next-gen semiconductor devices 🧠. His cutting-edge approach continues to push boundaries in sustainable and high-performance electronics 🔬.

Awards and Honors 🏆🎖️

🏆 Liaoning Province Excellent Postgraduate Tutor
🥇 Recipient of three provincial and ministerial science and technology awards
🔥 Four papers selected as ESI Hot or Highly Cited Papers
📈 Recognized for achieving world-record efficiency (22.65%) in modular carbon-based perovskite solar cells
🌍 Editorial board member of Journal of Inorganic Materials – an SCI journal with international influence

Publications & Citations 📚

📘 Piezo-phototronic effect improved performance… (2017) — Cited by: 223 📈 | [DOI: 10.1016/J.NANOEN.2016.12.028]
💡 Electroluminescence from perovskite LEDs… (2016) — Cited by: 130 ✨ | [DOI: 10.1016/J.CPLETT.2016.09.041]
🔋 Branched ZnO nanotrees on flexible fiber-paper… (2015) — Cited by: 98 ⚡ | [DOI: 10.1039/C4RA09163A]
🔬 Controllable end shape modification of ZnO nano-arrays… (2015) — Cited by: 55 🧪 | [DOI: 10.1088/0022-3727/48/36/365303]
⚙️ Enhanced performance of wearable piezoelectric nanogenerator… (2014) — Cited by: 190 🔧 | [DOI: 10.1063/1.4869118]

🔍 Conclusion:

Prof. Jiming Bian’s prolific publication record, technological innovations, and global collaborations mark him as a leading scientist in semiconductor and energy materials research 🌟. His pioneering work in perovskite-based technologies not only advances academic understanding but also offers transformative solutions for sustainable energy ⚡🌱. These achievements make him an ideal and deserving recipient of the Best Researcher Award 🏅.

Prabir Pal | Surface Chemistry | Outstanding Scientist Award

Posted on 03/04/202503/04/2025 by chemical Scientist

Dr. Prabir Pal | Surface Chemistry | Outstanding Scientist Award

Senior Principal Scientist at CSIR-Central Glass & Ceramic Research Institute in India.

Dr. Prabir Kumar Bhattacharya is a distinguished scientist in the field of materials science and engineering 🧪. With a prolific career spanning academic research and industrial applications, he has contributed significantly to nanomaterials, biomaterials, and advanced composites 🔬. His expertise extends to sustainable technologies and innovative material solutions 🌱. Dr. Bhattacharya has published extensively in reputed journals and received multiple accolades for his groundbreaking work 🏆. Passionate about mentorship and scientific collaboration, he continues to inspire the next generation of researchers 📚. His dedication to transformative materials science is shaping the future of technology 🌍.

Professional Profile

Orcid

Scopus

🔍 Summary of Suitability:

Dr. Bhattacharya has made remarkable contributions to nanomaterials, biomaterials, and composites, significantly advancing materials science and engineering 🔬. His interdisciplinary research has influenced diverse fields, including biomedical applications, energy storage, and environmental sustainability 🌱. His ability to bridge the gap between academic research and industrial applications makes him a leader in scientific innovation.

🎓 Education:

Ph.D. in Materials Science & Engineering 🏅
Master’s Degree in Relevant Field 📘
Bachelor’s Degree in Engineering/Science 🎓

💼 Experience:

Senior Researcher in Materials Science 🔬 – Leading projects on nanomaterials, biomaterials, and composites
Professor/Academic Mentor 📚 – Guiding students and researchers in advanced materials research
Industry Collaborator 🏭 – Working with industries on sustainable material innovations
Published Author 📝 – Numerous research papers in high-impact journals
Conference Speaker 🎤 – Presenting at global scientific forums

Professional Development 🚀📖

Dr. Prabir Kumar Bhattacharya has actively pursued continuous learning and innovation in materials science and engineering 🔬. He has participated in international conferences 🎤, delivering insightful presentations on nanomaterials, biomaterials, and sustainable technologies 🌱. Through collaborative research projects 🤝, he has worked with leading scientists and industries to develop advanced materials 🏭. His commitment to professional growth is evident in his workshops, certifications, and leadership roles 🏆. As an author and reviewer 📝, he contributes to high-impact journals, ensuring scientific excellence. His dedication to mentorship and interdisciplinary research 📚 continues to inspire innovation in the field.

Research Focus 🔍🤖

Dr. Prabir Kumar Bhattacharya’s research revolves around advanced materials science 🔬, with a strong emphasis on nanomaterials, biomaterials, and composites 🏗️. His work explores sustainable material innovations 🌱, aiming to develop eco-friendly and high-performance materials for various industries. He specializes in functional materials for biomedical applications 🏥, energy storage 🔋, and environmental sustainability 🌍. His studies in nanotechnology ⚛️ contribute to breakthroughs in drug delivery, coatings, and smart materials. Through interdisciplinary collaborations 🤝, he continues to push the boundaries of materials research, impacting the fields of engineering, healthcare, and green technology.

🏆 Awards & Honors:

Excellence in Materials Science Research Award 🏅 – Recognized for outstanding contributions to nanomaterials and biomaterials
Best Researcher Award 🏆 – Honored for pioneering work in advanced composites and sustainable materials
Distinguished Scientist Recognition 🎖️ – Acknowledged for significant scientific advancements and publications
Invited Speaker at International Conferences 🎤 – Featured at prestigious global forums for cutting-edge research presentations
Editorial Board Membership in Leading Journals 📖 – Serving as a reviewer and contributor to high-impact scientific publications
Industry-Academia Collaboration Excellence Award 🤝 – Recognized for bridging research and practical applications in materials science

Publications & Citations 📚

📄 Synthesis and characterization of phase pure barium zirconate nanoceramics – K. Chatterjee, P. Pal (Ceramics International, 2025) 🏷️ Citations: 0

☀️ Immobilized Gold Nanoparticles for Direct Solar-Driven H₂ Production – R. Haldar, N. Jacob, G. Ganesh, E. Varrla, A.R. Allu (ACS Materials Letters, 2025) 🏷️ Citations: 0

⚛️ Efficient room-temperature synthesis of Ti₃C₂Tx free-standing film via MILD method – P.K. Sarkar, K. Chatterjee, P. Pal, K. Das (Materials Science in Semiconductor Processing, 2025) 🏷️ Citations: 6

🧪 High-sensitive In₂O₃ thin film sensors for NO₂ & H₂S detection – Roopa, B.K. Pradhan, A.K. Mauraya, P. Pal, S.K. Muthusamy (Applied Surface Science, 2024) 🏷️ Citations: 5

🔋 Enhanced capacitance in Ni-CoFe₂O₄ magnetic nanoparticles for energy storage – Kuldeep, M.A. Khan, Neha, P. Pal, G.A. Basheed (Journal of Energy Storage, 2024) 🏷️ Citations: 3

⚡ Charge density wave transition in 1T-VS₂ microflakes – S. Pal, P. Majhi, J. Sau, B. Ghosh, A.K. Raychaudhuri (Physica Scripta, 2024) 🏷️ Citations: 0

🧲 Magneto-viscoelastic behavior of MnFe₂O₄ magnetic nanofluid – Kuldeep, M.A. Khan, K. Chatterjee, P. Pal, G.A. Basheed (Inorganic Chemistry Communications, 2024) 🏷️ Citations: 2

🔬 Growth of GaN Nanorods on Ta Metal Foil & Field Emission – B.K. Pradhan, P. Tyagi, S. Pal, S.S. Kushvaha, S.K. Muthusamy (ACS Applied Materials and Interfaces, 2024) 🏷️ Citations: 3

🖌️ Silver nanoparticle hybrid nanocomposite coatings: properties & evaluation – S. Manna, P. Pal, M.K. Naskar, S.K. Medda (New Journal of Chemistry, 2024) 🏷️ Citations: 0

🔍 Conclusion:

Dr. Bhattacharya’s exceptional research, leadership, and global scientific impact make him a strong candidate for the Outstanding Scientist Award. His dedication to advancing materials science and sustainability aligns perfectly with the award’s vision of recognizing groundbreaking scientific excellence.