Su Jin Kim | Separation Process | Best Researcher Award

Posted on by chemical Scientists

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 📚

  • 📅 2024Study on removal of nitrogen-containing heterocyclic compounds… – SCIE, cited by SCIE/Scopus 📈

  • 📅 2024Enrichment of indole by n-hexane re-extraction… – Scopus, cited by Scopus 📊

  • 📅 2024Comparison of extraction solvents on separation performance of indole… – Scopus, cited by Scopus 🔬

  • 📅 2023Experimental study on enrichment of indole in wash oil… – SCIE, cited by SCIE 🔎

  • 📅 2023Effect of experimental factors on reduction of nitrogen compounds… – Scopus, cited by Scopus 🧪

  • 📅 2022Purification of indole in wash oil via extraction and crystallization… – SCIE, cited by SCIE 🧫

  • 📅 2022Reduction of nitrogen compounds in methylnaphthalene oil (I & II) – Scopus, cited by Scopus 📘

  • 📅 2021Upgrading of wash oil through nitrogen compound reduction – SCIE, cited by SCIE ♻️

  • 📅 2020Improvement of distillate from waste plastic pyrolysis oil… – SCIE, cited by SCIE 🌍

  • 📅 2019Purification of 2,6-DMN from light cycle oil… – SCIE, cited by SCIE 🧬

  • 📅 2019Separation of indole in coal tar model system… – SCIE, cited by SCIE ⚗️

  • 📅 2019Quality improvement of pyrolysis oil via DMF extraction – Scopus, cited by Scopus 🔄

  • 📅 2018Purification of 2,6-DMN via crystallization – Scopus, cited by Scopus ❄️

  • 📅 2018Recovery of paraffins from pyrolysis oil by 4-stage extraction – Scopus, cited by Scopus 🛢️

  • 📅 2016Separation of nitrogen compounds using methanol vs. formamide – SCIE, cited by SCIE 🔍

  • 📅 2015Methanol/formamide extraction comparison – Scopus, cited by Scopus 💧

  • 📅 2014High-purity purification of indole (coal tar) – Scopus, cited by Scopus 🧴

  • 📅 2014Methanol extraction in 9-compound system – Scopus, cited by Scopus 🧪

  • 📅 2014Crystallization of DMN isomers – Scopus, cited by Scopus 🧊

  • 📅 2012Vapor-liquid equilibria studies (various systems) – SCIE, cited by SCIE 🌡️

  • 📅 2012Vapor-liquid equilibria in glycol ether systems – SCI, cited by SCI 🌫️

  • 📅 2010Liquid membrane permeation of nitrogen compounds – SCI, cited by SCI 🧬

  • 📅 2010Indole separation via crystallization – Scopus, cited by Scopus 🧼

  • 📅 2008Purification of 2,6-DMN by crystallization – Scopus, cited by Scopus ❄️

  • 📅 2007Recovery of indole via 5-stage extraction – Scopus, cited by Scopus 🔄

  • 📅 2005Solvent extraction of nitrogen heterocyclics – SCI, cited by SCI 🔬

  • 📅 2004Bicyclic aromatic separation by liquid membrane – SCI, cited by SCI 🧫

  • 📅 2003DMN isomer recovery by distillation-extraction – SCI, cited by SCI 🧪

  • 📅 2003Recovery of bicyclic aromatics in LCO – SCI, cited by SCI 🛢️

  • 📅 2001Scale-up of stirred tank contactors for membrane permeation – SCI, cited by SCI ⚙️

  • 📅 1998Polypropylene morphology by crystallization – SCIE, cited by SCIE ❄️

  • 📅 1998Membrane vs. solvent extraction in aromatic separation – Scopus, cited by Scopus 🧃

  • 📅 1997Hydrocarbon 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 🌍.

 

 

Diana Elena Ciolacu | Polymer Chemistry | Best Researcher Award

Posted on by chemical Scientists

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 

GOOGLE SCHOLAR 

SCOPUS 

ORCID 

🔍 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 📚

      1. 📘 Amorphous cellulose—structure and characterization – 1039 citations, 2011

      2. 💧 New cellulose–lignin hydrogels and their application in controlled release of polyphenols – 247 citations, 2012

      3. 💊 Cellulose-based hydrogels as sustained drug-delivery systems – 188 citations, 2020

      4. 🧬 The effect of the cellulose-binding domain from Clostridium cellulovorans on the supramolecular structure of cellulose fibers – 152 citations, 2010

      5. ❄️ Physically and chemically cross-linked cellulose cryogels: Structure, properties and application for controlled release – 132 citations, 2016

      6. 🧪 Advanced functional materials based on nanocellulose for pharmaceutical/medical applications – 92 citations, 2021

      7. 🧴 Synthesis and characterization of polyvinyl alcohol/cellulose cryogels and their testing as carriers for a bioactive component – 86 citations, 2012

      8. 🧁 Biosynthesis of dextran by Weissella confusa and its In vitro functional characteristics – 84 citations, 2018

      9. 🩺 Cellulose-based hydrogels for medical/pharmaceutical applications – 81 citations, 2018

      10. 🔬 Enzymatic hydrolysis of different allomorphic forms of microcrystalline cellulose – 55 citations, 2011

      11. 🕸️ Semi-interpenetrating polymer networks containing polysaccharides. I Xanthan/Lignin networks – 53 citations, 2007

      12. ❤️ 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. 🌟👏

 

 

SUNRAY LEE | Molecular Biology | Best Researcher Award

Posted on by chemical Scientists

Ms. SUNRAY LEE | Molecular Biology | Best Researcher Award

Research Director at CEFObio Co., Ltd , South Korea.

Dr. Sunray Lee is a distinguished researcher and Director of CEFO Research Institute in Seoul, Korea 🇰🇷. With a Ph.D. in Stem Cell Biology from Korea University 🎓, his expertise spans molecular immunology, MHC biology, and regenerative medicine 🧬. Over two decades, he has led pivotal R&D in stem cells, biomaterials, and cell therapy 🧪. As a prolific author and patent holder, Dr. Lee’s innovations have influenced cosmetic biotechnology, bone regeneration, and 3D cell culture 🌿🧫. He is a regular member of national innovation committees and an active contributor to international conferences and regenerative medicine networks 🌍.

PROFILE 

orcid

🔍 Summary of Suitability:

Dr. Sunray Lee embodies the ideal candidate for a Best Researcher Award through his unmatched dedication, multidisciplinary expertise, and leadership in regenerative medicine, stem cell biology, and biomaterials research. With over 20 years of experience and numerous high-impact publications, his work bridges science and innovation, directly contributing to advancements in clinical and cosmetic therapeutics. He has led transformative R&D, mentored scientific communities, and represented Korea in international regenerative medicine collaborations.

🎓 Education

  • B.Sc. in Agronomy – Korea University (1995–1999) 🌾

  • M.Sc. in Molecular & Cellular Immunology – Korea University (2000–2003) 🧫

  • Ph.D. in MHC & Stem Cell Biology – Korea University (2006–2012) 🧬

💼 Professional Experience

  • 🔬 Researcher, MHC Lab, Seoul National University (2004–2005)

  • 🧪 Senior Scientist, MizMedi Hospital (2005–2007)

  • 🧫 Senior Scientist, MCTT Research Institute (2007–2011)

  • 🧠 Member, KEIT Innovation Evaluation (2010–2025)

  • 🧬 Director, CEFO Research Institute (2012–Present)

  • 🔗 Committee Member, KSMCB, KSB, KSSCR, CARM, APACRM (2017–Present)

Professional Development 🚀📖

Dr. Sunray Lee’s professional growth is rooted in cross-disciplinary research, collaborative leadership, and regulatory insight 📚🔬. He is deeply involved in Korea’s R&D planning and policy through KEIT and serves as Vice Chair at CARM’s International Cooperation Committee 🌐🤝. His participation in global forums like APACRM and KSSCR highlights his dedication to regenerative medicine diplomacy 🌱💬. Dr. Lee frequently delivers keynote talks and publishes cutting-edge research in journals spanning biomedical engineering, dermatology, and pharmaceuticals 📖🗣️. He continuously fosters innovation through industry-academia linkages and promotes ethical advancement in biotechnology and stem cell research 🌍⚙️.

Research Focus 🔍🤖

Dr. Lee’s research revolves around regenerative medicine, focusing on stem cell biology, biomaterials, and cellular therapy 🧬🧪. His work includes developing 3D cell culture systems, cryopreservation methods, and stem cell-based skin and bone therapies 🧫🦴. A major emphasis lies in mesenchymal stem cells, pluripotent stem cells, and their therapeutic applications in cosmetics and orthopedics 🧖‍♀️⚕️. His projects combine bioengineering, molecular biology, and omics to optimize cell culture environments and develop innovative treatment platforms 🔍🔧. With a vision toward translational medicine, he contributes to national and international standards for advanced regenerative products and clinical protocols 🌐🧠.

Awards and Honors 🏆🎖️

  • 🏅 Citation by Ministry of Trade, Industry & Energy (MOTIE) – Dec. 12, 2018

  • 🥇 Best Investigator Award, Korea University – Mar. 27, 2012

Publications & Citations 📚

    • 2025 – 🧪 Development of Mold Technology for Insert-Wells

    • 2024 – 🧬 Cell Therapy Using Umbilical Cord MSCs for Osteonecrosis

    • 2023 – 🦴 Osteogenic-Induced Adipose Stem Cells in Canine Bone Repair

    • 2023 – 💧 Stem Cell-Conditioned Medium for Whitening & Moisturizing

    • 2023 – 🧫 Tracking HUVECs Using Quantum Dot Nanoparticles

    • 2023 – 🌏 Asia Guidelines for Ancillary Materials in Cell Therapy

    • 2022 – ❄️ Cryogenic Storage Container Cell Viability Study

    • 2022 – 💆 3D Stem Cell Cream Effects on Skin Elasticity

    • 2020 – 🌿 Anti-aging Effects of Stem Cell Creams

    • 2020 – 🧬 Medroxyprogesterone & Metformin in Endometrial Cancer

    • 2020 – ❄️ Cryogenic Container Plastic Changes Analysis

    • 2020 – 💊 3D Co-culture to Enhance Drug Selectivity

    • 2020 – 🧴 Cosmetic Products with MSC Medium

    • 2019 – 🐎 Equine iPSCs for Therapeutic MSC Differentiation

    • 2019 – 🛡️ Immune Effects of 3D MSC Conditioned Cream

    • 2018 – 💪 Induced Myogenic Stem Cells via Transcription Factors

    • 2016 – 💉 Apoptin Gene Delivery for Glioma Cells

    • 2016 – 🧬 Glycol Chitosan-PEI Gene Carrier for MSCs

    • 2016 – 🧫 PAMAM Dendrimers for Gene Delivery to MSCs

    • 2012 – 🧬 DNA Methylation in Pluripotent Stem Cells

    • 2011 – 🧪 Stem Cell Substrate Physical Properties

    • 2011 – 🦷 Dental Stem Cell Comparisons

    • 2011 – 🔁 Dynamic Gene Copy Number Changes in iPSCs

    • 2010 – 🧬 Adipogenic Differentiation in Feeder Cells

    • 2010 – 🧬 Umbilical MSCs as Therapy

    • 2009 – 🦴 MSC Source Phenotypic Analysi

    • 2004 – ⚙️ Promyelocytic Leukemia & SAPK2 Inhibition

    • 2004 – 🦠 CMV and MHC Class I Immune Evasion

    • 2004 – 🛡️ HLA-G Shedding & NK Cell Inhibition

 🔍 Conclusion:

Dr. Sunray Lee’s consistent pursuit of excellence, coupled with tangible contributions to science, medicine, and technology, makes him not just a candidate—but a model recipient—for the Best Researcher Award. His innovative mindset, translational achievements, and leadership in stem cell applications mark him as a cornerstone in modern biomedical research 🧠🌱.

 

 

PINGLIN LI | Organic Chemistry | Best Researcher Award

Posted on by chemical Scientists

Prof. PINGLIN LI | Organic Chemistry | Best Researcher Award

Professor at Ocean University of China.

Dr. Pinglin Li 🌊🔬 is a professor at the School of Medicine and Pharmacy, Ocean University of China. With a Ph.D. in Organic Chemistry from Lanzhou University 🎓, his research explores bioactive secondary metabolites from South China Sea marine invertebrates and their symbiotic microbes. His expertise spans quantum chemical calculations, ECD, NMR, and semi-synthesis of marine natural products ⚗️🧬. A former visiting scholar at UC San Diego, he has led multiple national research grants and earned prestigious awards, including the Sanofi Biopharmaceuticals Youth Award 🏅. Dr. Li has published extensively in marine natural products and bioorganic chemistry journals 📚🌿

PROFILE 

orcid

🔍 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 Organic Chemistry, Lanzhou University, China – 2008

  • 📗 B.S. in Chemistry, Lanzhou University, China – 2003

💼 Employment & Experience:

  • 👨‍🏫 Professor, School of Medicine and Pharmacy, Ocean University of China – Jan 2016 to present

  • 🧪 Associate Professor, School of Medicine and Pharmacy, Ocean University of China – Jan 2014 to Dec 2015

  • 🧫 Lecturer, School of Medicine and Pharmacy, Ocean University of China – Mar 2011 to Dec 2013

  • 🥼 Lecturer, College of Food Science and Engineering, Ocean University of China – Jul 2008 to Mar 2011

  • 🌍 Visiting Scholar, Scripps Institution of Oceanography, UC San Diego, USA – Sep 2015 to Sep 2016

Professional Development 🚀📖

Dr. Pinglin Li has demonstrated exceptional professional development through a dynamic academic journey and impactful research contributions 🌱📈. From earning his Ph.D. in Organic Chemistry 🎓 to advancing from lecturer to full professor at Ocean University of China 🏫, his career reflects continuous growth and dedication. As a visiting scholar at the Scripps Institution of Oceanography 🌊🌍, he expanded his global perspective and research capabilities. Dr. Li has led numerous national-level projects 🧪📊, published extensively in top-tier journals 📚, and received prestigious awards 🏆. His ongoing exploration of marine-derived bioactive compounds showcases his innovation and leadership in the field 🔬.

Research Focus 🔍🤖

Dr. Pinglin Li’s research focuses on marine natural products chemistry 🧪🌊, specializing in the isolation, structural elucidation, and bioactivity assessment of secondary metabolites from South China Sea marine invertebrates such as corals and their symbiotic microorganisms 🐚🔍. His work integrates advanced spectroscopic techniques like NMR and ECD 📈🧬, along with quantum chemical calculations and semi-synthesis of bioactive compounds ⚗️🧠. Dr. Li’s studies aim to discover novel compounds with therapeutic potential, including anti-inflammatory and cytotoxic properties 💊🌿. His contributions bridge marine biodiversity and drug discovery, making him a key figure in marine pharmaceutical research 🧫🌍.

Awards and Honors 🏆🎖️

  • 🏆 Sanofi Biopharmaceuticals Youth Award – Chinese Pharmaceutical Association (2013)

  • 🥇 Best Research Award, 21st Edition of International Academic Awards – ACA, Sciencefarther, Scifax, India

  • 🏅 Best Research Award, 9th Edition of Top Teachers Awards – TOT, Sciencefarther, Scifax, India

  • 🧪 Best Research Award, 14th Edition of International Research Awards on Advanced Nanomaterials and Nanotechnology – ANN, Sciencefarther, Scifax, India

Publications & Citations 📚

  • 📘 Aaptourinamine structural investigationMar. Drugs, 2022, cited by 6 🧠

  • 🧪 Sarcoeleganolides C–G from S. elegansMar. Drugs, 2022, cited by 12 🧬

  • 🌿 Sarcoelegans A–H with anti-inflammatory activityPhytochemistry, 2023, cited by 15 💊

  • 🌊 Terpenoids from Sarcotragus sp.J. Nat. Prod., 2023, cited by 9 🔬

  • 🔍 Macrocyclic cembranes stereochemical studyTetrahedron, 2023, cited by 4 🧫

  • 🧬 Seven new lobane diterpenoidsMar. Drugs, 2023, cited by 5 ⚗️

  • 🌱 Lemneolemnanes A–D sesquiterpenoidsMar. Drugs, 2024, cited by 2 📈

  • 🧿 Litoamentenes A–K cytotoxic cembranoidsPhytochemistry, 2024, cited by 3 💥

  • 🌐 Terpenoids from Sinularia densaMar. Drugs, 2024, cited by 1 🔎

  • 🧫 Heterocycles from P. chrysogenumMar. Drugs, 2024, cited by 1 🧪

 🔍 Conclusion:

Dr. Pinglin Li exemplifies what the Best Researcher Award represents—intellectual rigor, innovative thinking, global collaboration, and high-impact science. His pioneering work on marine-derived bioactive compounds contributes significantly to both academic research and potential therapeutic development 💊🌎. His achievements clearly merit recognition through this prestigious award.

 

 

Jiming Bian | Physical Chemistry | Best Researcher Award

Posted on by chemical Scientists

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

🔍 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 🏅.

 

 

Maria TIRITAN | Organic Chemistry | Best Paper Award

Posted on by chemical Scientists

Prof. Maria TIRITAN | Organic Chemistry | Best Paper Award

Professor at Faculdade de Farmácia da Universidade do Porto in Portugal.

Maria Elizabeth Tiritan 🎓🔬 is a distinguished researcher at CIIMAR and an Assistant Professor of Organic Chemistry and Pharmaceutical Sciences at the University of Porto 🇵🇹. With a PhD in Organic Chemistry, she has led groundbreaking studies in chiral pharmaceuticals, environmental toxicology 🌱💊, and green drug development. A pioneer in enantioselective biodegradation, she has authored over 130 publications, holds two patents 📚🧪, and has an h-index of 39. Passionate about sustainable science, she coordinates multiple international projects 🌍 and mentors emerging scientists, fostering innovation in medicinal and environmental chemistry 🌿👩‍🔬.

Professional Profile

GOOGLE SCHOLAR

🔍 Summary of Suitability:

This paper showcases Maria Elizabeth Tiritan’s deep expertise in organic and medicinal chemistry, highlighting the importance of chirality in flavonoids—a class of compounds with significant pharmacological activity 💊🌿. The work offers a comprehensive overview of stereoselective synthesis methods, combining fundamental chemistry with applied biomedical relevance. It underscores how stereochemistry affects biological function, paving the way for safer and more effective drug candidates 🔍🔄.

🎓 Education

  • 🧪 PhD in Organic Chemistry – University of Porto, Portugal (1996)
    Thesis: Enantiomeric Resolution of Chiral Sulfoxides by HPLC

  • 📚 Postdoctoral Research – Organic Chemistry (1997–2001)
    Faculty of Pharmacy, University of Porto

  • 🌍 Visiting Researcher – University of Warwick, UK (1992–1995)
    Under WHO and CNPq (Brazil) programs

  • 🎓 Degree in Chemistry – Brazil (before 1992)

💼 Experience

  • 👩‍🏫 Assistant Professor – Faculty of Pharmacy, University of Porto (2020–Present)

  • 🧫 Researcher – CIIMAR, University of Porto (2015–2018, 2022–Present)

  • 🧬 Team Leader – Drug Research Line at IINFACTS (2018–2021)

  • 🌱 Coordinator – Environmental Research Unit, IINFACTS (2013–2017)

  • 🧪 Group Leader – Chemical & Pharmaceutical Sciences at CESPU (2007–2012)

  • 🧑‍🔬 Postdoctoral Fellow – Faculty of Pharmacy, University of Porto (1997–2001)

  • 🌐 Research Collaborator – Multiple international and national projects focused on chiral drugs, environmental pollutants, and green chemistry

Professional Development 🚀📖

Maria Elizabeth Tiritan has demonstrated remarkable professional development through a dynamic career in research and academia 📚🔬. From her early work as a visiting researcher at the University of Warwick 🌍 to her postdoctoral studies in organic chemistry at the University of Porto 🧪, she has steadily advanced as a leading scientist in medicinal and environmental chemistry 🌿💊. She became a group leader, team coordinator, and principal investigator on several innovative projects, particularly in green pharmaceuticals and enantioselective analysis 🔄🌱. As an Assistant Professor and project leader, she continues mentoring students and shaping sustainable scientific research 🌎👩‍🏫

Research Focus 🔍🤖

Maria Elizabeth Tiritan’s research focuses on Organic Chemistry, Medicinal Chemistry, and Environmental Sciences 🧪💊🌱. Her work is centered on chirality, enantioselective analysis, and the development of eco-friendly pharmaceuticals 🌍🔄. She investigates how chiral drugs behave in biological and environmental systems, aiming to design safer, biodegradable compounds ♻️🧬. A key part of her research also includes separating enantiomers using liquid chromatography and membranes 🔬💡. Her studies contribute to both public health and environmental protection, linking chemistry with sustainable development goals 🌿🌐. Through innovation and green chemistry, she leads efforts to reduce pharmaceutical pollution in ecosystems 🌊⚗️.

Awards and Honors 🏆🎖️

  • 🧠 Principal Investigator of 8 funded projects at CESPU – Recognized leadership in innovative pharmaceutical and environmental research 🎯💊

  • 📘 Editor & Author of major scientific books and chapters – Including Chiral Separations and Stereochemical Elucidation published by Wiley 📚✍️

  • 🔬 Reviewer & Committee Member – Evaluator for international research fellowships and grant applications, including ERC Starting Grant 🧪🌍

  • 💼 Coordinator of Sustainable Development Goals Working Group at FFUP since 2021 – For advancing eco-conscious research goals 🌿🧭

  • 📈 131 publications with 4019 citations and an h-index of 39 – Recognition for impactful scientific contributions 📊🏅

Publications & Citations 📚

  • Organic Chemistry – LG Wade 📘 Pearson Education India, 2008 – 1718 citations

  • Performance of aerobic granular sludge… – CL Amorim et al. 💊 Water Research, 2014 – 257 citations

  • Biodegradation of ofloxacin, norfloxacin, and ciprofloxacin… – CL Amorim et al. 🧪 Applied Microbiology and Biotechnology, 2014 – 221 citations

  • Monitoring of the 17 EU Watch List contaminants… – JCG Sousa et al. 🌍 Science of the Total Environment, 2019 – 214 citations

  • Spatiotemporal distribution of pharmaceuticals… – TV Madureira et al. 🌊 Science of the Total Environment, 2010 – 201 citations

  • Chiral stationary phases for liquid chromatography… – J Teixeira et al. 🔬 Molecules, 2019 – 172 citations

  • Seasonal and spatial distribution of endocrine-disrupting compounds… – C Ribeiro et al. 🌱 Archives of Environmental Contamination and Toxicology, 2009 – 139 citations

  • Enrichment of bacterial strains for the biodegradation… – VS Bessa et al. 🧫 International Biodeterioration & Biodegradation, 2017 – 134 citations

  • Degradation of fluoroquinolone antibiotics… – AS Maia et al. 💉 Journal of Chromatography A, 2014 – 133 citations

  • Enantioseparation of chiral pharmaceuticals… – AR Ribeiro et al. ⚖️ Journal of Chromatography B, 2014 – 130 citations

  • Enantioselectivity in drug pharmacokinetics and toxicity… – MM Coelho et al. 💊 Molecules, 2021 – 125 citations

  • New trends in sample preparation techniques… – C Ribeiro et al. 🧴 Critical Reviews in Analytical Chemistry, 2014 – 121 citations

  • Chiral pharmaceuticals in the environment – AR Ribeiro et al. 🌐 Environmental Chemistry Letters, 2012 – 104 citations

 🔍 Conclusion:

The paper stands out for its clarity, relevance, and impact in the fields of green medicinal chemistry and drug development. Given its scientific merit, innovation, and interdisciplinary value, it is a strong contender for the Best Paper Award 🥇📖.

 

 

Gaulthier RYDZEK | Polymer materials | Best Researcher Award

Posted on by chemical Scientists

Assoc. Prof. Dr. Gaulthier RYDZEK | Polymer materials | Best Researcher Award

Maître de CONFÉRENCES at Montpellier University in France.

Dr. Gaulthier Rydzek 🇫🇷 is an Associate Professor at Montpellier University, ICGM Institute, specializing in polymer chemistry, hybrid materials, and interface functionalization 🧪. With a PhD from Strasbourg and research experience in Japan 🇯🇵, Ireland 🇮🇪, and Canada 🇨🇦, he pioneers nanomaterial innovation for energy and environmental solutions 🌍⚡. Known for electro-click chemistry and saloplastics, he has 39+ publications, 2400+ citations 📈, and leads global collaborations across 12 countries 🌐. He’s also an editor for top journals 📚 and an active member of French chemical societies. His work bridges science and sustainability through cutting-edge research and global cooperation 🌿🔬.

Professional Profile

🔍 Summary of Suitability:

Dr. Gaulthier Rydzek demonstrates exceptional academic excellence and research productivity in polymer chemistry, nanostructured hybrid materials, and electrochemical systems. With a global research journey spanning Canada, France, Japan, and Ireland 🌍, he combines strong interdisciplinary expertise with impactful scientific leadership. His active involvement in editorial roles, international collaborations, and EU-funded projects further showcases his commitment to advancing the field.

🎓 Education:

  • 🧑‍🎓 Bachelor’s & Master’s Degrees – University of Montreal 🇨🇦 & University of Strasbourg 🇫🇷

  • 🎓 PhD in Polymer Thin Films & Electrochemistry – University of Strasbourg (2012) 🇫🇷

  • 📜 Habilitation (HDR) – University of Montpellier (2024) 🇫🇷

💼 Experience:

  • 🔬 Postdoctoral Researcher in Nanoarchitectonics – NIMS, Japan (2013–2018) 🇯🇵

  • 🧫 Researcher in Soft Nanolithography – Trinity College Dublin, Ireland (2018–2019) 🇮🇪

  • 👨‍🏫 Assistant Professor – University of Montpellier (2019–2023) 🇫🇷

  • 👨‍🔬 Associate Professor – University of Montpellier (2023–Present) 🇫🇷

  • 🌍 International Collaborator – Projects in Poland, Ireland, Brazil, China, Vietnam, Philippines 🇵🇱🇮🇪🇧🇷🇨🇳🇻🇳🇵🇭

Professional Development 🚀📖

Dr. Gaulthier Rydzek has pursued continuous professional growth through interdisciplinary research, international collaborations, and editorial leadership 🌍📚. From pioneering nanoarchitectonics in Japan 🇯🇵 to advancing soft nanolithography in Ireland 🇮🇪, he has broadened his scientific horizon across borders. As an editor and board member for top journals 📝, he shapes future research directions. His leadership in EU-funded projects and consultancy with SMEs 🏢💡 reflect his drive for applied innovation. Active in French chemistry and polymer societies 🇫🇷🔬, Gaulthier regularly mentors students and promotes global partnerships, making him a dynamic force in chemical sciences and sustainable material innovation ⚗️🌱

Research Focus 🔍🤖

Dr. Gaulthier Rydzek’s research is centered on polymer chemistry, nanostructured hybrid materials, and electrochemistry 🧪⚡. He develops advanced thin films, self-assembled (co)polymers, and hybrid systems tailored for energy and environmental applications 🌿🔋. His innovative work includes electro-click chemistry, saloplastics, and functional nanomaterials with precise control over size, shape, and function 🧫🧬. These materials are designed for use in drug delivery, thermoelectrics, and ion conduction systems 💊🌡️🔌. Operating at the interface of materials science and green technology, his focus lies in creating sustainable solutions through smart chemical engineering and international collaboration 🌍🔬♻️

 Awards and Honors 🏆🎖️

  • 🏆 Award Category Preference: Nominated for the Best Researcher Award by the International Chemical Scientist Awards

  • 🧪 Editorial Honors:

    • Associate Editor – Frontiers in Batteries and Electrochemistry

    • Board Member – Journal of Applied Materials and Technology

    • Special Issue Editor for Materials, Molecules, and Polymers journals 📝📚

  • 🌍 International Collaboration Grants: Secured 6 international research fundings across Poland, Ireland, Brazil, China, Vietnam, and the Philippines for innovation in materials science

  • 📊 High Research Impact: Over 2400 citations and h-index of 20 on Google Scholar

Publications & Citations 📚

📘 Layer-by-layer nanoarchitectonics: invention, innovation, and evolution (2014) – Cited by 1055 📈🧪🔬
📘 Electrochemical nanoarchitectonics and layer-by-layer assembly: From basics to future (2015) – Cited by 334 ⚡🧬🧩
📘 Efficient gas and water vapor barrier properties of thin PLA films: Nafion & clay multilayers (2014) – Cited by 111 🌫️💧📦
📘 Polymer multilayer films via electrochemically catalyzed click chemistry (2010) – Cited by 90 🧷⚗️🎯
📘 Microstructural analysis of Al–WC composites via spark plasma sintering (2017) – Cited by 83 🔥🧱🔍
📘 Electrotriggered self-assembly of metal–polyphenol nanocoatings (2017) – Cited by 80 🧪🍵🔄
📘 Electrochemically triggered morphogen-driven film buildup (2011) – Cited by 66 ⚡🧱🎨
📘 Strategies for covalently reticulated polymer multilayers (2012) – Cited by 64 🧬🧵💡
📘 Nonphospholipid liposomes with photocontrolled release (2014) – Cited by 57 🌞💊📤
📘 Electropolymerization & electro-click for versatile surfaces (2014) – Cited by 45 ⚡🧲🧽
📘 Extrusion & microstructure of Al–B4C composites by stir casting (2018) – Cited by 44 🌀🔧🔩

 🔍 Conclusion:

Dr. Gaulthier Rydzek’s groundbreaking innovations, international leadership, and outstanding research track record make him an ideal candidate for the Best Researcher Award. His work not only advances scientific understanding but also delivers practical solutions for energy and environmental challenges, embodying the spirit of research excellence and global impact. 🏆🌱🔬

 

 

 

 

Longguo Wu | Spectroscopy | Best Researcher Award

Posted on by chemical Scientists

Assist. Prof. Dr. Longguo Wu | Spectroscopy | Best Researcher Award

Assistant Professor at Ningxia University in China.

Dr. Longguo Wu 🎓, born in 1988, is an associate professor at Ningxia University 🌱, specializing in horticulture and agricultural technology. As a postgraduate supervisor and deputy editor of Plant Methods 🧪, he has led multiple national and regional scientific projects and published 23 academic papers 📚. A visiting scholar at Texas A&M University 🇺🇸, his research focuses on hyperspectral imaging and nondestructive crop analysis 🌾. He has earned regional science awards 🏅, holds 8 patents, and trained over 1,000 technicians and farmers 👨‍🌾. Dr. Wu is a key figure in China’s agricultural innovation and education 🌍.

Professional Profile

ORCID 

🔍 Summary of Suitability:

Dr. Wu has consistently demonstrated research excellence in the field of horticultural science, particularly in hyperspectral imaging and nondestructive detection technologies for crop quality analysis. His multidisciplinary work bridges agriculture, engineering, and data science, making him a pioneer in smart farming and precision agriculture 🌱📡.

Education 🎓

  • Doctorate in Water Resources and Hydropower Engineering (2014–2017) 🏞️, Ningxia University

  • Master’s in Food Processing and Security (2012–2014) 🥗, Ningxia University

  • Bachelor’s in Food Science and Engineering (2008–2012) 🍎, Ningxia University

Experience 🧑‍🔬

  • Associate Professor, Ningxia University 🌱: Supervising postgraduate students in horticulture and agricultural technology.

  • Visiting Scholar (Jan–May 2017) ✈️: Texas A&M University-Kingsville, USA 🇺🇸, studying hyperspectral imaging techniques.

  • Key Member, Huang Danian Teacher Team 🌟: Promoting excellence in horticulture education.

  • Deputy Editor-in-Chief, Plant Methods 📰: Contributing to scientific publications.

  • Leader in R&D Projects ⚙️: Directed and contributed to over 20 national and regional research projects.

  • Trainer and Educator 🎓: Trained 1,000+ technicians and farmers in modern agricultural practices.

Professional Development 🚀📖

Dr. Longguo Wu has demonstrated exceptional professional development through continuous research, innovation, and academic leadership 🌟. As a leading figure in agricultural science, he has directed and participated in numerous national and regional R&D projects 🔬, focusing on hyperspectral imaging and nondestructive detection 🌾. His international experience as a visiting scholar at Texas A&M University 🇺🇸 enriched his global perspective. He actively contributes to academia as deputy editor of Plant Methods 📘 and has published over 20 high-impact papers 📝. Through training 1,000+ professionals 👨‍🏫 and securing multiple patents and awards 🏆, Dr. Wu remains a driving force in modern agricultural technology 🚜.

Research Focus 🔍🤖

Dr. Longguo Wu’s research primarily focuses on horticultural science and agricultural product detection 🌱🔍. His expertise lies in nutritional analysis of crops 🥦 and nondestructive detection technologies using hyperspectral imaging and deep learning algorithms 🤖📊. He applies these cutting-edge methods to assess plant health, quality, and stress responses, especially in tomatoes, melons, and other vegetables 🍅🍈. His work also explores the effects of environmental factors like light and salt stress on crops 🌞🌊. By integrating agriculture with technology, Dr. Wu advances sustainable farming and precision agriculture practices 🌾📈, making significant contributions to food safety and crop quality improvement worldwide 🌍.

 Awards and Honors 🏆🎖️

  • 🥉 Third Prize, Science and Technology Progress Award of Ningxia Hui Autonomous Region (1st place in ranking)

  • 🎓 National Master Student Scholarship – For outstanding academic performance during postgraduate studies

  • 🎓 National Doctoral Student Scholarship – For excellence in doctoral research

  • 🌟 Talent Support, 4th Ningxia Youth Science and Technology Promotion Program

  • 🏫 Key Member, Huang Danian Teacher Team in Horticulture Discipline

  • 🧪 Chief Expert, Hongsibu Melon and Vegetable Technology Small Courtyard, China Association of Agricultural Science and Technology

  • 🧑‍🏫 Virtual Lab Approval, Ministry of Education – Horticulture Virtual Simulation Teaching LaboratorY

Publications & Citations 📚

  • 📘 Prediction of SOD activity from leaf microstructure, Plant Biotechnology Journal, 2025 – Cited as First Author 👨‍🔬

  • 🍅 Soluble sugar prediction in cherry tomatoes, LWT-Food Science and Technology, 2024 – Contributor 🧪

  • 🌿 Antioxidant enzyme prediction in tomato leaves, Optics and Laser Technology, 2024 – Contributor 🔍

  • 🍈 Melon enzyme activity estimation, Microchemical Journal, 2024 – First Author ✍️

  • 🍇 Lycium barbarum adulteration detection, Journal of Food Composition and Analysis, 2024 – Contributor 🔬

  • 🍅 Soluble solids in tomatoes, Journal of Food Science, 2024 – Contributor 📊

  • 🌱 CAT activity under salt stress, Spectrochimica Acta Part A, 2023 – First Author 👨‍🔬

  • 🍃 Peroxidase activity under salt stress, Horticulturae, 2022 – First Author 📘

  • 🌞 Chlorophyll detection in muskmelon leaves, Agronomy, 2022 – Contributor 🧪

  • 🌰 Defect detection in jujube, Postharvest Biology and Technology, 2016 – First Author 🔍

  • 💧 Soil moisture model using hyperspectral imaging, Spectroscopy and Spectral Analysis, 2018 – First Author 📈

  • 💡 Soil moisture model (Japan collaboration), Chinese Journal of Luminescence, 2017 – First Author 🌍

  • 🌳 Non-destructive defect detection in jujube, Transactions of CSAE, 2015 – Contributor 🧪

  • 💧 Moisture content in jujube, Journal of Optoelectronics Laser, 2014 – Contributor 📊

  • 🐛 Insect hole detection in jujube, Chinese Journal of Luminescence, 2013 – Contributor 🔬

 🔍 Conclusion:

Dr. Longguo Wu’s body of work exemplifies the qualities of a Best Researcher: innovation, relevance, leadership, and impact. His contributions not only push the boundaries of agricultural technology but also solve real-world problems in food quality and sustainable farming. With a strong academic presence, practical inventions, and dedication to education, Dr. Wu stands as a deserving recipient of the Best Researcher Award 🏅.

 

 

 

 

Vedant Joshi | Polymer Chemistry | Best Researcher Award

Posted on by chemical Scientists

Mr. Vedant Joshi | Polymer Chemistry | Best Researcher Award

PhD Scholar of CSIR Indian institute of petroleum mokhampur dehradun in india.

Dr. Elijah W. Stommel 🧠, born in Hamilton, Bermuda 🇧🇲, is a distinguished neurologist and professor at the Geisel School of Medicine at Dartmouth 🏥📚. He holds both an M.D. and Ph.D. from Boston University and has spent decades advancing research in neurology, particularly in Amyotrophic Lateral Sclerosis (ALS) 🧬. Dr. Stommel is widely recognized for his pioneering studies on environmental risk factors and neurodegenerative diseases 🌿🧪. He serves as a staff neurologist at Dartmouth-Hitchcock Medical Center and actively contributes as a reviewer and editor for numerous scientific journals 📖🔬. His dedication to teaching, research, and clinical care continues to inspire. ✨

Professional Profile

🔍 Summary of Suitability:

Vedant Joshi exemplifies the qualities of an outstanding researcher: innovation, technical expertise, and dedication to sustainable scientific advancement 🔬🌱. With over 4 years of focused research experience and a strong academic foundation, he has demonstrated excellence in catalysis, polymer science, and green chemistry. His ongoing PhD at CSIR-IIP reflects a deep commitment to academic and industrial impact 🎓⚗️.

🎓 Education

  • 📘 M.Sc. in Organic Chemistry (2013–2015)
    Government P.G. College, Gopeshwar Chamoli, Uttarakhand, India

  • 📗 B.Sc. (Bachelor of Science) (2011–2013)
    Government P.G. College, Gopeshwar Chamoli, Uttarakhand, India

  • 📚 PhD (Pursuing)
    CSIR–Indian Institute of Petroleum, Dehradun, Uttarakhand

💼 Work Experience

  • 🧪 Project Associate (Oct 2020 – Mar 2023)
    CSIR–Indian Institute of Petroleum, Dehradun

    • Worked on synthesis of Unsaturated Polyester Resin using Parr Reactor

    • Optimized reactant quantities and handled instruments like GPC, Rheometer, Viscometer

  • 🧫 Project Assistant (Feb 2018 – Mar 2020)
    CSIR–Indian Institute of Petroleum, Dehradun

    • Synthesized and optimized noble and non-noble metal catalysts

    • Hands-on work in pilot plant experiments and advanced instrumentation: GC, TEM, TPR-TPD, RAMAN

Professional Development 🚀📖

Vedant Joshi has shown remarkable professional growth through hands-on research and advanced technical skills 🧑‍🔬. He has gained expertise in polymer synthesis, catalyst development, and pilot-scale operations ⚗️. His proficiency with instruments like GC, TEM, Rheometer, and RAMAN 📊 reflects his analytical strength. Vedant actively participated in national and international conferences 🗣️, presenting his research at IIT Guwahati and attending workshops on Transmission Electron Microscopy 🔍. His contributions include multiple peer-reviewed publications and patents 📄💡. Vedant’s commitment to continuous learning and scientific excellence positions him as a valuable asset in sustainable material research and innovation 🌱🔬.

Research Focus 🔍🤖

Vedant Joshi’s research primarily focuses on catalysis, polymer science, and sustainable material development 🔬🌱. His work spans the synthesis and optimization of catalysts, development of unsaturated polyester resins, and advanced functional polymers for environmental and industrial applications ⚗️🧪. He has contributed to green chemistry through innovative methods in desulfurization and bitumen upgrading ♻️🛢️. Vedant is also engaged in nanoarchitectonics for fluorescence sensing of biomolecules like cholesterol and bilirubin 🧫✨. His interdisciplinary approach integrates organic chemistry, material science, and chemical engineering, aiming for eco-friendly and efficient technological solutions for energy and petrochemical industries ⚙️🌍.

🏅 Awards & Honors

  • 🧠 Patent Contributor
    Co-inventor of 3 patents in the fields of reactive desulfurization, novel copolymers, and bitumen additives 🇮🇳📜

    • US Patent: Reactive desulfurization via copolymerization (US 11,802,249 B2)

    • India & US Patent: Novel thiophene-based copolymers (202111061088/0212NF202)

    • India Patent: Additives for bitumen upgradation (202311020225)

  • 🎤 Oral Presentation at SPSI-MACRO 2023
    Delivered a talk at the 17th International Conference on Polymer Science and Technology at IIT Guwahati 🧪🌍

  • 🛠️ Workshop Participation


  • Completed 7-day hands-on training in Transmission Electron Microscopy 🧫🔍

 

Publications & Citations 📚

📘 Fabrication of Au Nanoparticles Supported on One-Dimensional La₂O₃ Nanorods for Selective Esterification of Methacrolein to Methyl Methacrylate – B Paul et al., ACS Sustainable Chem. Eng. 2019, Cited by: 32 🔬

🧪 Low-temperature catalytic oxidation of aniline to azoxybenzene over an Ag/Fe₂O₃ nanoparticle catalyst using H₂O₂ as an oxidant – B Paul et al., New J. Chem. 2019, Cited by: 21 ⚗️

🔷 Development of Highly Efficient and Durable Three-Dimensional Octahedron NiCo₂O₄ Spinel Nanoparticles toward the Selective Oxidation of Styrene – B Paul et al., Ind. Eng. Chem. Res. 2019, Cited by: 19 💎

🔬 Oligomer sensor nanoarchitectonics for “turn-on” fluorescence detection of cholesterol at the nanomolar level – V Joshi et al., Molecules 2022, Cited by: 9 🧬

🔥 Enhanced coke-resistant Co-modified Ni/modified alumina catalyst for the bireforming of methane – S Panda et al., Catal. Sci. Technol. 2023, Cited by: 5 🔥

🌱 An economic, and environmentally benign Psidium guajava L. leaves catalyst for biodiesel production at room temperature – A Sarkar et al., Ind. Crops Prod. 2024, Cited by: 2 🌿

🛢️ Synthesis of polyesters derived from glycerol and phthalic anhydride and its application for bitumen modification – V Joshi et al., J. Appl. Polym. Sci. 2024, Cited by: 2 🧴

🏗️ Use of modified chitosan as bitumen modifier and its impact on rheological properties – K Kumar et al., Environ. Sci. Pollut. Res. 2024, Cited by: 2 🛠️

🧠 Diabetic retinopathy detection using convolutional neural networks – VN Joshi et al., IJRASET 2022, Cited by: 2 👁️

💡 Development of petroleum-derived polymeric additive to enhance bituminous properties with ML model – M Awasthi et al., Sustain. Chem. Environ. 2024, Cited by: – 🤖

📜 Process for preparation of higher-grade VG bitumens using sulfur-based polymeric additives (SBPA) – T Senthilkumar et al., US Patent App. 18/612,469 2024, Cited by: – 🧪

⚙️ Method for reactive desulfurization of crude oil and sulfur rich refinery fractions – A Ray et al., US Patent 11,802,249 2023, Cited by: – 🛢️

🔗 Poly(thiophene-co-benzothiophene-co-dibenzothiophene) copolymers and process thereof – A Ray et al., US Patent App. 18/064,529 2023, Cited by: – 🔬

📖 Mini Review on Conjugated polymer-based Fluorescence Techniques for Bilirubin Detection – V Joshi & T Senthilkumar, BJSTR 2022, Cited by: – 📘

🌊 “Turn-On” Fluorescence Sensing of Bilirubin Using Water-Soluble Conjugated Polymer – TS Kumar et al., Int. J. Anal. Appl. Chem. 2021, Cited by: – 💡

 🔍 Conclusion:

Vedant Joshi’s research blends scientific rigor with real-world relevance. His consistent contributions to sustainability, innovation, and materials science make him a strong and deserving contender for the Best Researcher Award. His work not only advances academic knowledge but also supports industrial applications, aligning with global scientific priorities. 🥇🌐

 

 

 

Elijah Stommel | Neurotoxicology | Best Researcher Award

Posted on by chemical Scientists

Dr. Elijah Stommel | Neurotoxicology | Best Researcher Award

Professor of Neurology at Geisel School of Medicine at Dartmouth in United States.

Dr. Elijah W. Stommel 🧠, born in Hamilton, Bermuda 🇧🇲, is a distinguished neurologist and professor at the Geisel School of Medicine at Dartmouth 🏥📚. He holds both an M.D. and Ph.D. from Boston University and has spent decades advancing research in neurology, particularly in Amyotrophic Lateral Sclerosis (ALS) 🧬. Dr. Stommel is widely recognized for his pioneering studies on environmental risk factors and neurodegenerative diseases 🌿🧪. He serves as a staff neurologist at Dartmouth-Hitchcock Medical Center and actively contributes as a reviewer and editor for numerous scientific journals 📖🔬. His dedication to teaching, research, and clinical care continues to inspire. ✨

Professional Profile

SCOPUS 

🔍 Summary of Suitability:

Dr. Stommel is a globally respected neurologist and researcher with dual degrees (M.D., Ph.D.) and a prolific publication record 📚. He has pioneered research linking environmental toxins, such as cyanobacteria and heavy metals, to ALS—a critical area of study with far-reaching implications for public health 🌍🧪. His interdisciplinary work bridges clinical neurology, molecular biology, and environmental science, and he has secured and led multiple major research grants 🎯💡.

🎓 Education

  • 🏫 B.A. in Music (High Honors) – Bowdoin College, Brunswick, ME (1973–1977)

  • 🧪 Research Assistant – Marine Biological Laboratory, Woods Hole, MA (1977–1984)

  • 🧬 Ph.D. in Physiology – Boston University School of Medicine, MA (1980–1984)

  • 🩺 M.D. – Boston University School of Medicine, MA (1984–1987)

  • 📚 M.I.T. Attendee – Cambridge, MA (1975–1976)

🏥 Medical Training & Certification

  • 🧑‍⚕️ Intern – St. Elizabeth’s Hospital, Boston, MA (1987–1988)

  • 🧠 Neurology Resident – Dartmouth-Hitchcock Medical Center (1988–1990)

  • Chief Resident in Neurology – DHMC (1990–1991)

  • 💼 Diplomat – American Board of Electrodiagnostic Medicine (2004)

  • 📜 Board Certified – American Board of Psychiatry and Neurology (1992)

👨‍🏫 Academic Experience

  • 🎓 Professor of Neurology – Geisel School of Medicine at Dartmouth (2013–Present)

  • 📖 Associate Professor of Medicine – Dartmouth Medical School (2001–2013)

  • 🧑‍🏫 Assistant Professor of Medicine – Dartmouth Medical School (1991–2001)

  • 🧑‍🏫 Instructor in Medicine – Dartmouth Medical School (1990–1991)

Clinical & Hospital Roles

  • 👨‍⚕️ Staff Neurologist – Dartmouth-Hitchcock Clinic (1991–Present)

  • 🧾 Co-Director – Electromyography Lab, DHMC (2017–Present)

  • 🏥 Consulting Neurologist – Multiple hospitals in VT & NH (1991–2005)

Professional Development 🚀📖

Dr. Elijah W. Stommel has shown exceptional dedication to professional development through decades of clinical, academic, and research excellence 🌟📚. As a board-certified neurologist 🧠, he has led initiatives in neuromuscular medicine and ALS research 🧬. His work spans founding specialized clinics 🏥, mentoring future neurologists 👩‍⚕️👨‍⚕️, and serving on national research and review panels 🧪📋. He contributes actively as an editor and reviewer for top scientific journals 📰 and is involved in numerous medical societies 🤝. His continuous pursuit of knowledge and innovation reflects a lifelong commitment to improving neurological care and advancing science 🌍🔬.

Research Focus 🔍🤖

Dr. Elijah W. Stommel’s research primarily focuses on neurodegenerative diseases, especially Amyotrophic Lateral Sclerosis (ALS) 🧠🧬. His work explores the environmental risk factors contributing to ALS, including exposure to cyanobacteria, toxins, and heavy metals 🌊☠️🧪. He has led groundbreaking studies linking environmental pollutants to neurological disorders 🌍⚠️. His multidisciplinary approach combines epidemiology, clinical trials, and molecular science 🔬📊. Dr. Stommel is also deeply involved in ALS prevention strategies and therapeutic development 💊🧑‍⚕️. His research aims to understand how environmental exposures interact with genetics to trigger neurodegeneration 🧬🌿, making significant impacts on public health and neurological science. 🩺📚

🏆 Awards & Honors

  • 🙌 Nominated for the Tow Humanism in Medicine Award – 2011 💖🩺

  • 🧠 Diplomat of the American Academy of Electrodiagnostic Testing – 2004 📜🏥

  • 🧾 Fellow of the American Academy of Neurology – Since 2006 🎓🧬

Publications & Citations 📚

📍 Lu, Yunrui et al.
“Integrative co-registration of elemental imaging and histopathology for enhanced spatial multimodal analysis of tissue sections through TRACE”Bioinformatics Advances, 2025 | 📚 0 citations

🧬 Li, Siting et al.
“Genome-Wide and Transcriptome-Wide Association Studies on Northern New England and Ohio Amyotrophic Lateral Sclerosis Cohorts”Neurology: Genetics, 2024 | 📚 0 citations

🫁 Murphy, Ethan K. et al.
“Assessing Pulmonary Function in ALS using Electrical Impedance Tomography”Conference Paper, [No source info] | 📚 0 citations

🫁 Rutkove, Seward Brian et al.
“Thoracic electrical impedance tomography for assessing progression of pulmonary dysfunction in ALS”ALS & Frontotemporal Degeneration, 2024 | 📚 0 citations

🧲 Calderón-Garcidueñas, Lilian et al.
“Single-domain magnetic particles… in ALS and neurodegeneration”Frontiers in Human Neuroscience, 2024 | 📚 2 citations

🫁 Rutkove, Seward Brian et al.
“Assessing pulmonary function in ALS using electrical impedance tomography”ALS & Frontotemporal Degeneration, 2024 | 📚 2 citations

🧫 Barney, Rachael E. et al.
“Validation of a ddPCR Assay to Detect Cyanobacterial 16S rDNA in Human Lung Tissue”Toxics, 2023 | 📚 0 citations

🧠 Calderón-Garcidueñas, Lilian et al.
“Neurodegeneration in pollution-exposed urbanites & nanoparticle role”Frontiers in Human Neuroscience, 2023 | 📚 16 citations

📘 Tischbein, Maeve & Stommel, Elijah W.
“Neurotoxic Cyanobacterial Toxins”Book Chapter | 📚 0 citations

 🔍 Conclusion:

Dr. Elijah W. Stommel exemplifies the qualities of a top-tier researcher—curiosity, innovation, collaboration, and societal impact. His work has not only expanded the scientific understanding of ALS but also influenced policy, clinical practices, and future research directions. He is a remarkably deserving candidate for the Best Researcher Award 🏅🔍.