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

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🔍 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 🧬.

Venkatesan Srinivasan| Nanomaterials | Young Scientist Award

Posted on 26/03/202526/03/2025 by chemical Scientist

Dr. Venkatesan Srinivasan| Nanomaterials | Young Scientist Award

Assistant Professor at Vel Tech Rangarajan Dr.Sagunthala R&D Institute of Science and Technologyin India.

Dr. V. Srinivasan 🎓 is an Assistant Professor of Chemistry at Vel Tech Rangarajan Dr. Sagunthala R&D Institute of Science and Technology, Chennai, India. His research focuses on the synthesis, characterization, and optimization of nanoprobes and small organic probes for applications in sensors, biological systems, and solar cells 🌞🧪. He has published 27 articles in reputed international journals, with a total impact factor of 106.9 📖✨. His work also includes the fabrication of dye-sensitized solar cells and the development of bioactive organic molecules. With 562 citations 📊 and an H-index of 13, Dr. Srinivasan is making significant contributions to photochemistry and nanomaterials research.

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🔍 Summary of Suitability:

Dr. V. Srinivasan is an ideal candidate for the Young Scientist Award due to his exceptional contributions to a, photochemistry, and energy research 🔬🌞. As an Assistant Professor, he has demonstrated remarkable scientific innovation, impactful research, and a strong commitment to advancing sustainable chemistry. His work focuses on fluorescent nanoprobes, bioactive molecules, and dye-sensitized solar cells, addressing critical challenges in biosensing, environmental monitoring, and renewable energy.

🎓 Education:

Ph.D. in Chemistry 🧪 – Specialized in nanomaterials and photochemistry.
Master’s in Chemistry (M.Sc.) 📚 – Advanced studies in chemical sciences.
Bachelor’s in Chemistry (B.Sc.) 🏫 – Foundation in fundamental chemistry concepts.

💼 Experience:

Assistant Professor 👨‍🏫 – Vel Tech Rangarajan Dr. Sagunthala R&D Institute of Science and Technology, Chennai.
Researcher in Nanomaterials 🔬 – Expertise in synthesizing and characterizing nanoprobes for diverse applications.
Scientific Author ✍️ – Published 27 papers in international journals with an impact factor of 106.9.
Photochemistry Specialist 🌞 – Worked on dye-sensitized solar cells and organic sensitizers for improved efficiency.
Reviewer & Collaborator 🤝 – Engaged in 5 research collaborations and contributed to journal revisions.

Professional Development 🚀📖

Dr. V. Srinivasan 🎓 has continuously enhanced his expertise through extensive research and collaborations 🤝. As an Assistant Professor 👨‍🏫, he has contributed to the advancement of nanoprobes, bioactive molecules, and photochemistry 🌞. His professional growth includes publishing 27 high-impact journal articles 📖, achieving an H-index of 13 📊, and securing 562 research citations. He actively engages in interdisciplinary collaborations, refining innovative methodologies in nanotechnology 🔬. A dedicated member of IAENG (504612) 🏅, he stays updated with emerging trends. His work in fluorescent nanomhttps://chemicalscientists.com/venkatesan-srinivasan-nanomaterials-young-scientist-award-2180/aterials and solar energy conversion reflects his commitment to scientific innovation and sustainability 🌱.

Research Focus 🔍🤖

Dr. V. Srinivasan’s research revolves around nanomaterials and photochemistry 🔬🌞, focusing on the synthesis and characterization of fluorescent nanoprobes for applications in biosensors, solar cells, and environmental monitoring 🧪🌍. His work includes developing aggregation-induced emissive (AIE) nanodots for bioimaging 🧬, graphene oxide dots (GO dots) for explosive detection 💥, and carbon nanocubes (CNCs) for antibiotic sensing 💊. Additionally, he explores dye-sensitized solar cells (DSSC) with novel organic sensitizers to enhance efficiency ⚡. His recent focus is on synthesizing bioactive organic molecules and nanomaterials for biomedical applications, making significant contributions to sustainable and innovative chemistry 🌱🧑‍🔬.

🏆 Awards & Honors:

Young Scientist Award Nominee 🏅 – Recognized for contributions in nanomaterials and photochemistry.
Published in High-Impact Journals 📖 – 27 research papers with a total impact factor of 106.9.
Research Citations Achievement 📊 – 562 citations, H-index: 13, and i10-index: 14.
Active Research Collaborator 🤝 – Engaged in 5 interdisciplinary collaborations.
Professional Membership 🎓 – Member of IAENG (504612) for engineering and research excellence.
Expert Reviewer 📝 – Contributed to 23 journal revisions in reputed international publications.

Publication Top Notes:

📗 Green synthesis of zinc oxide nanoparticles using Brassica oleracea var. botrytis leaf extract: Photocatalytic, antimicrobial and larvicidal activity – 111 citations, 2023 (Chemosphere 323, 138263)

💡 Unravelling the effect of anchoring groups on the ground and excited state properties of pyrene using computational and spectroscopic methods – 58 citations, 2016 (PCCP 18(19), 13332-13345)

🔬 A simple and ubiquitous device for picric acid detection in latent fingerprints using carbon dots – 48 citations, 2020 (Analyst 145(13), 4532-4539)

🦠 Pyrene based Schiff bases: Synthesis, crystal structure, antibacterial and BSA binding studies – 46 citations, 2021 (JMS 1225, 129153)

♻️ Fuel waste to fluorescent carbon dots and its multifarious applications – 42 citations, 2019 (Sensors and Actuators B: Chemical 282, 972-983)

💠 Pyrene based D–π–A architectures: synthesis, density functional theory, photophysics and electron transfer dynamics – 38 citations, 2017 (PCCP 19(4), 3125-3135)

🌐 Nanostructured graphene oxide dots: synthesis, characterization, photoinduced electron transfer studies, and detection of explosives/biomolecules – 29 citations, 2018 (ACS Omega 3(8), 9096-9104)

🧬 Pyrene-based prospective biomaterial: In vitro bioimaging, protein binding studies and detection of bilirubin and Fe³⁺ – 28 citations, 2019 (SAA: Molecular and Biomolecular Spectroscopy 221, 117150)

✨ AIE nanodots obtained from a pyrene Schiff base and their applications – 28 citations, 2017 (ChemistrySelect 2(4), 1353-1359)

⚛️ A combined experimental and computational characterization of D–π–A dyes containing heterocyclic electron donors – 24 citations, 2017 (JPPB A: Chemistry 332, 453-464)

🔋 A diminutive modification in arylamine electron donors: Synthesis, photophysics and solvatochromic analysis–towards the understanding of dye-sensitized solar cell performances – 20 citations, 2015 (PCCP 17(43), 28647-28657)

🩺 Evaluation of the anti-rheumatic properties of thymol using carbon dots as nanocarriers on FCA induced arthritic rats – 15 citations, 2021 (Food & Function 12(11), 5038-5050)

🧪 Facile synthesis of carbon nanocubes and its applications for sensing antibiotics – 14 citations, 2020 (JPPB A: Chemistry 403, 112855)

🔦 Light induced behavior of xanthene dyes with benzyl viologen – 11 citations, 2014 (Synthetic Metals 196, 131-138)

🧬 Miniscule modification of coumarin-based potential biomaterials: Synthesis, characterization, computational and biological studies – 7 citations, 2023 (JPPB A: Chemistry 445, 115044)

🧑‍💻 Computational, reactivity, Fukui function, molecular docking, and spectroscopic studies of a novel (E)-1-Benzyl-3-(2-(Pyrindin-2-yl) Hydrazono) Indolin-2-One – 6 citations, 2024 (Polycyclic Aromatic Compounds 44(9), 6263-6283)

🧲 Synthesis, crystal structure and protein binding studies of a binuclear copper (I) complex with triphenylphosphine-based dithiocarbazate – 6 citations, 2023 (Inorganic Chemistry Communications 157, 111195)

⚗️ A fluorescent chemosensor for selective detection of chromium (III) ions in environmentally and biologically relevant samples – 4 citations, 2024 (SAA: Molecular and Biomolecular Spectroscopy 316, 124286)

🧪 A comprehensive investigation of ethyl 2-(3-methoxybenzyl) acrylate substituted pyrazolone analogue: Synthesis, computational and biological studies – 4 citations, 2024 (Chemical Physics Impact 8, 100531)

🌱 Biomass-derived potential nano-biomaterials: Protein binding, anti-biofilm activity and bio-imaging – 3 citations, 2024 (JMS 1300, 137155)

🎯 Conclusion:

Dr. V. Srinivasan’s research excellence, scientific impact, and innovative contributions make him highly deserving of the Young Scientist Award. His pioneering work in nanomaterials, biosensors, and renewable energy showcases his potential as a leading young researcher shaping the future of scientific advancements. 🚀🔬

Joana Ferreira | Bioactive Properties | Best Researcher Award

Posted on 21/03/202521/03/2025 by chemical Scientist

Prof. Joana Ferreira | Bioactive Properties | Best Researcher Award

Teacher at Santarém Higher School of Agriculture in Portugal.

🌍 Joana Patrícia Araújo Ferreira is a dedicated researcher and lecturer specializing in food chemistry, biorefinery, and sustainable food innovation. 🎓 She holds a PhD in Chemistry (2014) from the University of Aveiro and is an integrated member of LEAF – Linking Landscape, Environment, Agriculture, and Food. With over 30 peer-reviewed publications 📄, her research focuses on food product characterization, microalgae-based ingredients, and circular economy approaches. 🍏🔬 As a lecturer at the Polytechnic Institute of Santarém, she teaches bioproducts development and food biotechnology. Passionate about sustainability and innovation, she actively contributes to advancing food science and environmental research. 🌱✨

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Suitability for the Best Researcher Award 🏆

Joana Patrícia Araújo Ferreira is an outstanding researcher with a strong background in food chemistry, biorefinery, and sustainability. With a PhD in Chemistry and a proven track record of over 30 peer-reviewed publications, she has significantly contributed to food innovation, analytical chemistry, and circular economy approaches. Her expertise in microalgae-based food products, valorization of food industry by-products, and bioactive compounds makes her a leading scientist in her field.

Education 🎓

PhD in Chemistry (2014) – University of Aveiro 🧪📚
- Thesis: “Síntese e Transformações de compostos do tipo pirazol e 1,2,3-triazol”
Master in Organic Chemistry and Natural Products (2008) – University of Aveiro 🌿🔬
- Thesis: “Estudos de halogenação de 5-estiril-3-(2-hidroxifenil)-1H-pirazóis”
Degree in Chemistry (2006) – University of Lisbon 🏛️⚛️
- Thesis: “Estudo dos Constituintes e da Bioatividade de Extractos Anti-hiperglicemiantes de Genista tenera”
Specialization Courses & Workshops:
- Biomedical Inorganic Chemistry – Applications in Diagnosis & Therapy 🏥⚗️
- Atomic Absorption Spectrophotometry for heavy metal detection 🌊🧴
- Marine Lipidomics & Algae Bioactives for Health 🌊🧬

Professional Experience 🏥

Lecturer (2023-Present) – Polytechnic Institute of Santarém 🎓📖
- Teaching Bioproducts Development, Food Biotechnology, Instrumental Analysis, Human Nutrition, and Biochemistry
Junior Researcher (2021-Present) – LEAF Research Center 🌱🔍
- Research on food sustainability, microalgae-based products, and circular economy
Lecturer (2021-Present) – Instituto Superior de Agronomia 🏫🧑‍🏫
- Courses on Laboratory Techniques in Chemistry & Biochemistry, Bioactive Compounds
Research Fellow (2014-2021) – Forest Research Center, Instituto Superior de Agronomia 🌳🔬
- Focus on biorefinery, sustainable food products, and bioactive compounds
Researcher (2007-2014) – University of Aveiro & University of Lisbon 🏛️🔬
- Conducted studies in natural products synthesis and analytical chemistry
Health & Safety Trainer (2013-2014) – Génios Livres 🏥⚖️
Scientific Project Coordinator & Team Member in multiple international and national research projects 🌍🔬

Professional Development 🚀📖

Joana Patrícia Araújo Ferreira is a dedicated researcher and educator committed to advancing food chemistry and sustainability. 🧪🌱 She continuously enhances her expertise through specialized courses in marine lipidomics, biorefinery, and green chemistry. 📚💡 As a lecturer and researcher, she actively mentors students and contributes to cutting-edge projects on microalgae-based food innovations, bioactive compounds, and circular economy. 🌍🔬 She has attended numerous international workshops, conferences, and research collaborations, strengthening her proficiency in analytical techniques, spectroscopy, and bioprocessing technologies. 🎤📊 Passionate about innovation, she integrates sustainability and health-driven solutions into food science. 🍏🔍

Research Focus 🔍🤖

Joana Patrícia Araújo Ferreira’s research spans multiple scientific disciplines, focusing on food chemistry, biorefinery, and sustainable innovations. 🌱🍽️ She specializes in nutritional and chemical characterization of food products, microalgae-based food innovations, and valorization of food industry by-products. 🔍🌊 Her work in circular economy emphasizes waste reduction and resource optimization. She is also involved in analytical and organic chemistry, including natural product synthesis, structural elucidation, and green chemistry methodologies. ⚛️🧪 Additionally, she explores glyphosate’s impact on human health and the development of functional food products with enhanced sensory and technological properties. 🏥🌿

Awards & Honors 🏆

Short Term Scientific Mission (STSM) Grant (2015) – COST Action FP1203 🌍🔬
- Recognized for contributions to Non-Wood Forest Products Research at the University of Ljubljana, Slovenia.
PhD Research Grant (2009) – Fundação para a Ciência e Tecnologia (FCT) 🎓⚛️
- Awarded a prestigious doctoral research fellowship for studies in organic and analytical chemistry.
Treaty of Windsor Anglo-Portuguese Joint Research Programme (2006) – British Council 🇬🇧🇵🇹
- Selected for an international research collaboration between University of Lisbon and University of York.
Bronze Award (2024) – AlgaEurope Conference 🥉🌊
- Awarded for poster presentation on the sensory profile of microalgae.

Publication Top Notes:

1️⃣ Ingestion of microplastics by commercial fish off the Portuguese coast – D Neves, P Sobral, JL Ferreira, T Pereira | Marine Pollution Bulletin 101 (1), 119-126 | 📅 2015 | 🔗 Cited by: 1093

2️⃣ Amberstripe scad Decapterus muroadsi (Carangidae) fish ingest blue microplastics resembling their copepod prey along the coast of Rapa Nui (Easter Island) in the South Pacific – NC Ory, P Sobral, JL Ferreira, M Thiel | Science of the Total Environment 586, 430-437 | 📅 2017 | 🔗 Cited by: 686

3️⃣ Low prevalence of microplastic contamination in planktivorous fish species from the southeast Pacific Ocean – N Ory, C Chagnon, F Felix, C Fernández, JL Ferreira, C Gallardo, … | Marine Pollution Bulletin 127, 211-216 | 📅 2018 | 🔗 Cited by: 281

4️⃣ Microplastics in sediments from the littoral zone of the north Tunisian coast (Mediterranean Sea) – S Abidli, JC Antunes, JL Ferreira, Y Lahbib, P Sobral, NT El Menif | Estuarine, Coastal and Shelf Science 205, 1-9 | 📅 2018 | 🔗 Cited by: 266

5️⃣ Plastic and other microfibers in sediments, macroinvertebrates and shorebirds from three intertidal wetlands of southern Europe and west Africa – PM Lourenço, C Serra-Gonçalves, JL Ferreira, T Catry, JP Granadeiro | Environmental Pollution 231, 123-133 | 📅 2017 | 🔗 Cited by: 246

6️⃣ Plastic ingestion and trophic transfer between Easter Island flying fish (Cheilopogon rapanouiensis) and yellowfin tuna (Thunnus albacares) from Rapa Nui (Easter Island) – C Chagnon, M Thiel, J Antunes, JL Ferreira, P Sobral, NC Ory | Environmental Pollution 243, 127-133 | 📅 2018 | 🔗 Cited by: 154

7️⃣ Ungulates and their management in Portugal – J Vingada, C Fonseca, J Cancela, J Ferreira, C Eira | European Ungulates and their Management in the 21st Century 392 | 📅 2010 | 🔗 Cited by: 62

8️⃣ Poly (vinyl acetate) paints in works of art: A photochemical approach. Part 1 – JL Ferreira, MJ Melo, AM Ramos | Polymer Degradation and Stability 95 (4), 453-461 | 📅 2010 | 🔗 Cited by: 55

9️⃣ Shedding new light on polyurethane degradation: Assessing foams condition in design objects – SF de Sá, JL Ferreira, IP Cardoso, R Macedo, AM Ramos | Polymer Degradation and Stability 144, 354-365 | 📅 2017 | 🔗 Cited by: 40

🔟 Characterization and long-term stability of historical PMMA: impact of additives and acrylic sheet industrial production processes – S Babo, JL Ferreira, AM Ramos, A Micheluz, M Pamplona, MH Casimiro, … | Polymers 12 (10), 2198 | 📅 [Year Not Specified] | 🔗 Cited by: 32

🎯 Conclusion:

Joana Ferreira is a highly deserving candidate for the Best Researcher Award, given her exceptional contributions to scientific research, innovation in sustainable food chemistry, and dedication to mentoring the next generation of researchers. Her work has a profound impact on food science, sustainability, and human health, making her an ideal choice for this prestigious recognition. 🌍🔬👏

Shariful Islam | Nanomaterials | Young Scientist Award

Posted on 12/03/202512/03/2025 by chemical Scientist

Mr. Shariful Islam | Nanomaterials | Young Scientist Award

Scientific Officer at Institute of Food Science and Technology in Bangladesh.

Shariful Islam 🧑‍🔬 is a dedicated Scientific Officer at the Institute of Food Science and Technology (IFST), Bangladesh Council of Scientific and Industrial Research (BCSIR), Dhaka 🇧🇩. With a Master’s degree in Inorganic and Analytical Chemistry from the University of Dhaka 🎓, he specializes in analytical chemistry, food bioactive substances, and nanoencapsulation. His research focuses on enhancing the bioavailability of bioactive compounds and developing functional foods 🍎. An accomplished scientist, he has published in high-impact journals 📖 and received multiple scholarships and awards 🏆. Passionate about innovation, he strives to advance food science for a healthier future 🌱.

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Suitability for the Young Scientist Award

Shariful Islam is highly suitable for the Young Scientist Award due to his exceptional contributions to food science, analytical chemistry, and nanoencapsulation. With a strong academic background from the University of Dhaka 🎓, he has demonstrated excellence in scientific research, innovation, and problem-solving. His work focuses on enhancing the bioavailability of bioactive compounds, functional food development, and advanced analytical techniques, making a significant impact on food technology and public health.

Education 🎓

✅ Master of Science in Inorganic and Analytical Chemistry, University of Dhaka, Bangladesh (2018)
✅ Bachelor of Science in Chemistry, University of Dhaka, Bangladesh (2016)
✅ Higher Secondary Certificate (HSC), Taragonj H N Uchcha Madhyamic Bidyalaya, Gazipur (2010)
✅ Secondary School Certificate (SSC), Taragonj H. N. High School, Gazipur (2008)

Professional Experience 🏢

🔹 Scientific Officer – Institute of Food Science and Technology (IFST), BCSIR, Dhaka (Nov 2021 – Present)
🔸 Conducts research on food bioactive compounds, nanoencapsulation, and analytical chemistry.
🔸 Plans and manages research projects, ensuring compliance with scientific standards.

🔹 Lecturer of Chemistry – Primeasia University, Dhaka (Feb 2020 – Nov 2021)
🔸 Delivered lectures, developed curricula, and assessed student performance.

🔹 Quality Control Officer – Beximco Pharmaceuticals Ltd., Dhaka (Aug 2019 – Jan 2020)
🔸 Ensured product quality through analytical testing and regulatory compliance.

🔹 Executive, Analytical Research & Development – ACI HealthCare Ltd., Dhaka (Sep 2018 – July 2019)
🔸 Developed and validated HPLC methods for pharmaceutical analysis.

Professional Development 🚀📖

Shariful Islam is committed to continuous learning and skill enhancement in analytical chemistry and food science 🧪. He has participated in international training workshops, including the Japan-Asia Youth Exchange Program in Science (SAKURA) 🇯🇵. He has completed specialized training on Gas Chromatography (GC-FID/MS) 🔬, Atomic Absorption Spectrophotometry (AAS) ⚗️, and Dumas Protein Analysis 🍞. He actively presents research at scientific conferences 🎤 and has received multiple scholarships 🏆. His expertise extends to laboratory techniques, statistical analysis 📊, and food bioactive compound research, making him a valuable contributor to scientific innovation and development 🌍

Research Focus 🔍🤖

Shariful Islam’s research primarily revolves around food science 🥦, analytical chemistry 🧪, and nanoencapsulation ⚛️. He explores the bioavailability of bioactive compounds to enhance functional food formulations 🍎. His work includes micro and nanoencapsulation techniques to improve nutrient stability and delivery 🏺. Additionally, he investigates dietary fiber enrichment 🌾, antioxidant properties 🛡️, and fermentation-based food innovations 🍞. His expertise extends to metal complex synthesis ⚗️ and their applications in biological and pharmaceutical sciences 💊. Through interdisciplinary approaches, he aims to develop healthier and more sustainable food products 🌍, bridging chemistry and nutrition for global well-being

Awards & Honors 🏆

🎖 National Science and Technology (NST) Fellowship – Awarded for outstanding research in MS thesis.
🏅 Post-Graduation Scholarship – Received for excellent academic performance in BS degree.
🎓 Gazipur District Council & Dutch-Bangla Bank Scholarship – Awarded for exceptional results in HSC.
📜 Government Scholarship (SSC Exam) – Recognized for academic excellence in secondary education.
🏅 General (Merit) Scholarship – Received for outstanding performance in class eight.
❤️ Best Blood Donor Award – Honored by ‘BADHAN’ (A Voluntary Blood Donors Organization), University of Dhaka, for humanitarian service.

Publication Top Notes:

🧪 Green synthesis of zinc oxide nanoparticles using Allium cepa L. waste peel extracts and its antioxidant and antibacterial activities – MF Islam, S Islam, MAS Miah, AKO Huq, AK Saha, ZJ Mou, MMH Mondol, … | Heliyon | 📅 2024 | 📖 30 citations
🔬 Synthesis, spectral characterization, thermal behavior and biological activities study of ternary metal complexes of alanine and 1,8-diaminonapthalene with Co(III), Ni(II) – AKMNA Siddiki, S Islam, S Begum, MA Salam | Materials Today: Proceedings | 📅 2021 | 📖 18 citations
⚗️ Synthesis, spectral characterization and thermal behavior of newly derived La(III), Co(III), and Mn(II) complexes with Schiff base derived from methionine and salicylaldehyde – S Islam, AKMNA Siddiki, S Begum, MA Salam | Open Journal of Inorganic Chemistry | 📅 2018 | 📖 17 citations
🍌 Physicochemical and Functional Properties of Banana Starch and Its Alternative Returns – MASM, Shariful Islam, Nusrat Abedin, Md. Nazmul Hasan, Md. Faridul Islam … | Current Research in Nutrition and Food Science | 📅 2023 | 📖 9 citations
🥝 Enzymatic extraction of green banana resistant starch for future food preparation: Structural, physicochemical and functional characterization – S Islam, MAS Miah, MF Islam, KJ Tisa, MMH Mondol | Future Foods | 📅 2024 | 📖 7 citations
🌱 HPLC-DAD analysis of water-soluble vitamins (B1, B2, B3, B5, B6, C and Biotin) and fat-soluble vitamins (A, D, E, K1 and β-carotene) in commonly consumed pulses in Bangladesh – MM Rashid, S Islam, MN Uddin, MZU Al Mamun, MJ Abedin, … | Applied Food Research | 📅 2024 | 📖 4 citations
🌾 Exploring the effects of spontaneous and solid-state fermentation on the physicochemical, functional and structural properties of whole wheat flour (Triticum aestivum L.) – S Islam, MAS Miah, MF Islam, MNI Bhuiyan, KJ Tisa, MR Naim | Innovative Food Science & Emerging Technologies | 📅 2024 | 📖 3 citations
🍜 Quality assessment and sensory evaluation of green banana starch enriched instant noodles – MF Islam, S Islam, MAS Miah, MNI Bhuiyan, N Abedin, MMH Mondol, … | Applied Food Research | 📅 2024 | 📖 3 citations
🥦 Nutritional composition, bioactive compounds, and pharmacological activities of tossa jute sprout (Corchorus olitorius L.): A potential functional food – S Akter, MA Satter, KS Ahmed, S Biswas, MA Bari, A Das, MA Karim, … | Food Bioscience | 📅 2024 | 📖 1 citation
🍌 Physicochemical, Functional and Health Promoting Properties of Resistant Starch from Green Banana (Musa Paradisiaca) – S Islam, MA Satter, MF Islam, KZ Tisha, MMH Mondol | Functional and Health Promoting Properties of Resistant Starch from Green … | 📅 2023 | 📖 1 citation

📌 Conclusion:

Shariful Islam’s expertise in analytical and food chemistry, strong research impact, and dedication to scientific advancement make him an ideal candidate for the Young Scientist Award. His innovative approaches in functional food research and nanoencapsulation position him as a future leader in the field, driving scientific progress for global health and sustainability. 🌍✨

P. ABISHAKE DAVID | Nanomaterials | Best Researcher Award

Posted on 05/03/202505/03/2025 by chemical Scientist

Mr. P. ABISHAKE DAVID | Nanomaterials | Best Researcher Award

Ph.D. Research Scholar at T.B.M.L. College, Porayar in India.

P. Abishake David 🎓 is a dedicated Ph.D. Research Scholar at T.B.M.L. College, Porayar (affiliated with Annamalai University), specializing in the development of metal-organic frameworks (MOFs) for electrochemical energy storage ⚡. With a first-class distinction in his postgraduate studies 🏅, he has successfully synthesized Cu-MOF and Co-MOF for supercapacitor applications, utilizing advanced techniques such as cyclic voltammetry, UV-Vis, FT-IR, and XPS 🧪. As a reviewer for the Journal of Inorganic and Organometallic Polymers and Materials and an active conference organizer 🌐, he is committed to advancing sustainable energy solutions 🔋 through innovative materials research.

Professional Profile

Google Scholar

Orcid

Suitability for the Researcher Award

P. Abishake David 🎓 is highly suitable for the Best Researcher Award due to his focused and innovative contributions to the field of Electrochemical Energy Storage 🔋. His research specializes in the synthesis and electrochemical characterization of Metal-Organic Frameworks (MOFs) 🧪, particularly Cu-MOF and Co-MOF, aimed at enhancing supercapacitor performance ⚡. He has applied advanced techniques like Cyclic Voltammetry, Galvanostatic Charge-Discharge, and Impedance Spectroscopy 🔬 to optimize material properties for sustainable energy solutions 🌱.

🎓 Education

✅ Completed Postgraduate (PG) in Physical Sciences with First Class and Distinction 🏅
✅ Qualified Ph.D. entrance exams at Bharathidasan University and Annamalai University 📜
🎯 Currently pursuing Ph.D. Research at T.B.M.L. College, Porayar (Affiliated to Annamalai University) 🏛️
📖 Preparing for CSIR NET Exam in Physical Science 🧠

💼 Experience

🧪 Research focused on Metal-Organic Frameworks (MOFs) for Electrochemical Energy Storage 🔋
🧰 Hands-on experience with techniques like UV-Vis, FT-IR, FT-Raman, XPS, Cyclic Voltammetry, Galvanostatic Charge-Discharge, and Impedance Spectroscopy 🔬
⚡ Successfully synthesized and optimized Cu-MOF and Co-MOF for supercapacitor applications 🔄
🌍 Served as a Technical Member in organizing an International Conference 📅
📝 Reviewer for the Journal of Inorganic and Organometallic Polymers and Materials 📚
🤝 Collaborated with Dr. Manikandan Ayyar from KAHE, Coimbatore 🔗

Professional Development 🚀📖

P. Abishake David 🎓 continuously advances his professional journey through dedicated research in Metal-Organic Frameworks (MOFs) for energy storage 🔋. He has gained hands-on expertise in advanced analytical techniques 🧪 such as UV-Vis, FT-IR, XPS, and Cyclic Voltammetry to enhance supercapacitor performance ⚡. Actively preparing for the CSIR NET exam 📖, he aims to strengthen his academic credentials while contributing innovative solutions to sustainable energy 🌍. Serving as a reviewer 📝 and participating in international conferences 🌐, Abishake builds collaborations 🤝 and sharpens his skills, remaining committed to pushing the boundaries of electrochemical materials research 🔬.

Research Focus 🔍🤖

P. Abishake David 🎓 focuses his research on the Electrochemical Energy Storage category 🔋, specializing in the synthesis and optimization of Metal-Organic Frameworks (MOFs) 🧪. His work targets developing high-performance materials like Cu-MOF and Co-MOF to improve supercapacitor efficiency ⚡. Using advanced techniques such as Cyclic Voltammetry, Galvanostatic Charge-Discharge, and Impedance Spectroscopy 🔬, he studies material behavior for sustainable energy applications 🌱. His research area extends to Nanomaterials, Graphene, and 2D Materials 🌐, with the goal of creating innovative solutions for next-generation power storage technologies 🚀, supporting the global demand for renewable energy 🌍.

🏆 Awards & Honors

🥇 Award Nominee for Best Researcher Award by Chemicalscientists.com 🧪
🥈 Award Nominee for Best Research Scholar Award 🎓
🌐 Served as a Technical Member in organizing an International Conference on advanced research topics 📅
✍️ Appointed as a Reviewer for the Journal of Inorganic and Organometallic Polymers and Materials 📚

Publication Top Notes:

📄 “A study on the facile synthesis of Cu-influenced organic framework and their characteristic properties” – M Jothibas, PA David, S Srinivasan, P Emerson, A Mathivanan | 🗞️ Journal of Molecular Structure 1320, 139429 | 📅 2025 | 🔍 Cited by: 1

📄 Publication: “Electrochemical Performance of Metal-Organic Frameworks for Supercapacitor Applications” 🧪 | Published in: 2023 📅 | Cited by: 1 🔍

📌 Conclusion:

Considering his specialized research in advanced energy materials, early but impactful publication record, peer-review contributions, and active participation in international academic activities 🌍, P. Abishake David is a deserving candidate for the Best Researcher Award 🏅. His work directly supports global efforts toward sustainable and efficient energy technologies, reflecting both innovation and societal relevance 🌱⚡.