Jiong Zhou | Supramolecular Chemistry | Best Researcher Award

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Prof. Jiong Zhou | Supramolecular Chemistry | Best Researcher Award

Professor| Northeastern University | China

Dr. Jiong Zhou,  in Hubei, China, is a Professor and doctoral supervisor at the Department of Chemistry, Northeastern University, Shenyang. He obtained his PhD from Zhejiang University under the mentorship of Prof. Feihe Huang and pursued postdoctoral research with Prof. Timothy R. Cook at the University at Buffalo, SUNY. His academic journey includes a visiting scholar position at the same institution between .  Dr. Zhou embarked on his independent career as a professor, focusing on responsive self-assembly, supramolecular coordination complexes, and functional materials derived from host–guest chemistry. He has published more than 46 papers in supramolecular chemistry, attracting over 2800 citations, and serves on multiple editorial boards for leading journals. His scientific contributions have been recognized through prestigious awards, including the Chu Kochen Award and fellowships from international organizations. Today, he continues advancing supramolecular chemistry with innovation and global collaborations

Professional Profile

Dr. Jiong Zhou’s academic foundation reflects a strong commitment to chemistry and materials science. He earned his Bachelor’s degree in Polymer Materials and Engineering  from Anhui University under the guidance of Prof. Ru Xia. Building on this, he pursued doctoral studies in Chemistry at Zhejiang University, where he trained under Prof. Feihe Huang, a leading figure in supramolecular chemistry. His PhD, completed in concentrated on molecular self-assembly, host–guest interactions, and functional supramolecular systems. During his doctoral program, he broadened his international exposure as a visiting student at the University at Buffalo, SUNY, working in Prof. Timothy R. Cook’s research group. This experience reinforced his expertise in supramolecular coordination chemistry and interdisciplinary approaches. His formal education provided both theoretical and experimental grounding, equipping him with advanced skills in organic, polymer, and supramolecular chemistry, laying the foundation for his distinguished research career

Experience 

Dr. Zhou’s professional experience combines advanced research, teaching, and mentorship. Following the completion of his PhD, he joined the University at Buffalo, SUNY, as a Postdoctoral Associate in Prof. Timothy R. Cook’s laboratory, focusing on supramolecular assemblies and functional materials. Earlier, during his doctoral studies, he had served as a visiting scholar in the same group, enhancing his international research collaborations. Dr. Zhou began his independent academic career as a Professor in the Department of Chemistry at Northeastern University, where he supervises doctoral students and leads multiple funded projects. His experience spans authoring highly cited publications, presenting invited talks worldwide, and contributing to journal editorial boards. Beyond research, he has taught courses such as Organic Chemistry, Supramolecular Chemistry, and Organic Chemistry Experiments. His professional journey demonstrates a balance of cutting-edge research, impactful publications, teaching excellence, and leadership in chemical sciences

Professional Development

Dr. Zhou has actively pursued professional development through international collaborations, editorial leadership, and participation in scientific forums. He has served as Guest Editor for Molecules and is a Young Editorial Board member for numerous journals, including Exploration, VIEW, Asian Journal of Pharmaceutical Sciences, and Aging and Disease. He is also a reviewer for leading chemistry journals and contributes to advisory panels for Molecules and Polymers. His global presence includes invited talks at prestigious institutions such as the University of Cambridge, University of Manchester, and University of Liverpool, as well as conferences like the American Advanced Materials Congress. Dr. Zhou is also engaged in mentoring, having supervised PhD, master’s, and undergraduate students, guiding them in independent research. He continuously refines his expertise through international academic exchanges, keynote lectures, and professional committee involvement. His development reflects a dedication to leadership, innovation, and advancing the field of supramolecular chemistry

Skills & Expertise

Dr. Jiong Zhou possesses extensive expertise in supramolecular chemistry, functional materials, and molecular self-assembly. His core skills include the design and synthesis of macrocyclic compounds, exploration of host–guest chemistry, and development of supramolecular coordination complexes for practical applications. He is proficient in employing advanced analytical techniques for structural characterization and has experience in applied areas such as nanomedicine, cancer therapy, and molecular recognition. Beyond laboratory expertise, Dr. Zhou excels in academic publishing, having authored 46 scientific papers with significant global impact. His teaching skills are demonstrated through courses in Organic Chemistry and Supramolecular Chemistry, blending foundational knowledge with emerging research. He is also skilled in mentoring students, guiding them through independent projects and thesis development. Additionally, his editorial contributions highlight his critical review skills and commitment to shaping scientific literature. Overall, Dr. Zhou’s expertise lies at the intersection of supramolecular science, materials innovation, and interdisciplinary applications

Resarch Focus

Dr. Zhou’s research is centered on supramolecular chemistry, particularly responsive self-assembly, supramolecular coordination complexes, and functional host–guest systems. His work explores the design of novel macrocyclic hosts, including pillararene derivatives and hybrid[n]arenes, which can serve as versatile building blocks for advanced materials. A key focus is the development of supramolecular polymers and nanostructures for biomedical applications, including cancer therapy, drug delivery, and theranostics. His studies also extend to nonporous adaptive crystals, offering innovative solutions for molecular separations and environmental applications. By combining molecular design with functional material development, his research aims to address pressing global challenges in healthcare, sustainability, and energy. Supported by competitive funding projects, Dr. Zhou’s research integrates experimental chemistry with molecular simulations, bridging theory and application. His vision is to push the boundaries of supramolecular systems toward smart, responsive materials with transformative impacts across interdisciplinary fields of science and technology

Awards & Recognitions

Dr. Jiong Zhou has received numerous awards and honors recognizing his academic excellence and research impact. Early in his career, he earned the Chu Kochen Award , the highest honor of Zhejiang University, along with multiple Excellent Graduate and Innovation Awards. His doctoral achievements were also recognized with the Zhejiang University and Zhejiang Province Excellent Graduate Awards . Upon transitioning to his independent career, he was named Innovation Leader in Shenyang City and was selected for the Outstanding Young Scholars Training Program at Northeastern University. His international recognition includes being elected a Fellow of the International Association of Advanced Materials and receiving the Vebleo Fellowship . He has also guided students to prestigious awards, such as Outstanding Graduation Thesis recognition at Northeastern University. These accolades reflect his dedication to pioneering research, mentorship, and global scientific leadership, reinforcing his reputation as a rising scholar in supramolecular chemistry

Publication Top Notes

In conclusion, Dr. Jiong Zhou is highly suitable for the Best Researcher Award. His strong academic foundation, prolific publication record, impactful research contributions, and global recognition position him as a leading figure in supramolecular chemistry. While there is room to expand in translational applications and global collaborations, his trajectory shows consistent growth, innovation, and leadership. He embodies the qualities of an outstanding researcher, making him a highly deserving candidate for this prestigious award.

Eduardo González-Zamora | Multicomponent Reactions | Best Researcher Award

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Prof. Dr. Eduardo González-Zamora | Multicomponent Reactions | Best Researcher Award

Professor at Universidad Autónoma Metropolitana, campus Iztapalapa , Mexico.

Dr. Eduardo González-Zamora 👨‍🔬 is a full professor at Universidad Autónoma Metropolitana-Iztapalapa (UAM-I) 🇲🇽. With a passion for chemistry 🧪, he earned his MSc from UAM-I in 1988 🎓. He completed his PhD in 1998 at Paris XI University 🇫🇷, under Prof. R. Beugelmans. He further enriched his experience with postdoctoral roles in UNAM 🇲🇽 and CNRS 🇫🇷, and served as a visiting professor at UCLA 🇺🇸 in 2011. His scientific journey is driven by innovation in polyheterocycle synthesis, peptide and total synthesis, and MOF chemistry 🔬. His global academic path reflects a commitment to excellence 🌍.

PROFILE 

ORCID 

GOOGLE SCHOLAR 

🔍 Summary of Suitability:

Dr. Eduardo González-Zamora exemplifies academic excellence, innovation, and international collaboration in the field of organic chemistry 🧪. His journey spans over three decades of impactful research, teaching, and mentorship. With advanced degrees from prestigious institutions in Mexico 🇲🇽 and France 🇫🇷, and postdoctoral research in top-tier global labs—including CNRS and UCLA 🇺🇸—he has developed a strong international presence and research footprint. His role as a full professor at UAM-I further highlights his leadership in the scientific community.

🎓 Education & Experience 

  • 🎓 MSc in Chemistry, Universidad Autónoma Metropolitana-Iztapalapa (UAM-I), 1988

  • 🎓 PhD in Chemistry, Paris XI University, France, 1998

  • 🧪 Postdoc at Instituto de Química, UNAM, Mexico (under Prof. R. Cruz)

  • 🔬 Postdoc at Institut de Chimie des Substances Naturelles, CNRS, France (with Prof. J. Zhu)

  • 👨‍🏫 Visiting Professor, UCLA (M.A. Garcia-Garibay’s group), USA, 2011

  • 👨‍🔬 Full Professor, Department of Chemistry, UAM-I, Mexico

Professional Development 🚀📖

Dr. González-Zamora’s professional development reflects a dynamic trajectory across prestigious global institutions 🌐. After solid foundations in Mexico 🇲🇽, he expanded his research horizons in France 🇫🇷 through advanced studies and postdoctoral work, gaining invaluable experience in synthetic chemistry 🧬. His role at UCLA 🇺🇸 as a visiting professor further enriched his international profile. As a full professor at UAM-I, he actively mentors students, leads innovative projects, and contributes to academic and scientific communities 📚. His development is marked by continual learning, collaboration, and leadership in research 🔍, teaching 📖, and international scientific networking 🤝.

Research Focus 🔍🤖

Dr. González-Zamora’s research is centered on organic synthesis with a focus on constructing complex molecular architectures 🧪. He specializes in the synthesis of polyheterocycles via multicomponent reactions (MCRs) ⚗️, contributing significantly to advances in heterocyclic chemistry. His work also spans peptide synthesis 🧬 and total synthesis strategies, aiming at efficient and innovative molecular assembly. Furthermore, he explores Metal-Organic Frameworks (MOFs) for potential applications in catalysis and material science 🧱. His research is driven by curiosity, creativity, and interdisciplinary integration, making significant impacts in both theoretical understanding and practical applications 🔍.

Publications & Citations 📚

Synthesis of polyheterocycles via multicomponent reactions, IA Ibarra, A Islas-Jácome, E González-Zamora, Organic & Biomolecular Chemistry 16 (9), 1402-1418, 243, 2018
MOF Materials for the Capture of Highly Toxic H₂S and SO₂, E Martínez-Ahumada, A López-Olvera, V Jancik, JE Sánchez-Bautista, …, Organometallics 39 (7), 883-915, 168, 2020
Structure stability of HKUST-1 towards water and ethanol and their effect on its CO₂ capture properties, JR Álvarez, E Sánchez-González, E Pérez, E Schneider-Revueltas, …, Dalton Transactions 46 (28), 9192-9200, 133, 2017
CO₂ capture under humid conditions in metal–organic frameworks, E González-Zamora, IA Ibarra, Materials Chemistry Frontiers 1 (8), 1471-1484, 122, 2017
Highly reversible sorption of H₂S and CO₂ by an environmentally friendly Mg-based MOF, E Sánchez-González, PGM Mileo, M Sagastuy-Breña, JR Álvarez, …, Journal of Materials Chemistry A 6 (35), 16900-16909, 100, 2018
High and energy-efficient reversible SO₂ uptake by a robust Sc(III)-based MOF, JA Zárate, E Sánchez-González, DR Williams, E González-Zamora, …, Journal of Materials Chemistry A 7 (26), 15580-15584, 86, 2019
Catalytic activity of HKUST-1 in the oxidation of trans-ferulic acid to vanillin, R Yepez, S García, P Schachat, M Sánchez-Sánchez, …, New Journal of Chemistry 39 (7), 5112-5115, 86, 2015
Greener synthesis of Cu-MOF-74 and its catalytic use for the generation of vanillin, JG Flores, E Sánchez-González, A Gutiérrez-Alejandre, J Aguilar-Pliego, …, Dalton Transactions 47 (13), 4639-4645, 85, 2018
Wilkinson’s catalyst catalyzed selective hydrogenation of olefin in the presence of an aromatic nitro function: a remarkable solvent effect, A Jourdant, E González-Zamora, J Zhu, The Journal of Organic Chemistry 67 (9), 3163-3164, 83, 2002
The Ugi three-component and its variants, JC Flores-Reyes, A Islas-Jácome, E González-Zamora, Organic Chemistry Frontiers 8 (19), 5460-5515, 81, 2021
Outstanding reversible H₂S capture by an Al(III)-based MOF, JA Zárate, E Sánchez-González, T Jurado-Vázquez, …, Chemical Communications 55 (21), 3049-3052, 77, 2019
Multicomponent domino process to oxa-bridged polyheterocycles and pyrrolopyridines, structural diversity derived from work-up procedure, R Gámez-Montaño, E González-Zamora, P Potier, J Zhu, Tetrahedron 58 (32), 6351-6358, 74, 2002

🔍 Conclusion:

Dr. Eduardo González-Zamora’s consistent, high-impact contributions to synthetic and materials chemistry make him an exceptional choice for the Best Researcher Award. His innovative research, mentorship, and global collaborations have left a profound mark on the field. His career is a testament to academic rigor, scientific curiosity, and international cooperation—core values that embody what this award stands for. 🥇

 

 

Saida Mammadova | Surface Chemistry | Best Researcher Award

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Dr. Saida Mammadova | Surface Chemistry | Best Researcher Award

Scientific researcher at Institute of Physics, Azerbaijan.

🔬 Saida Mammadova is a dedicated scientific researcher at the Institute of Physics, Ministry of Science and Education of Azerbaijan. With a Bachelor’s in Mathematics and a Master’s in Mathematical Analysis from Baku State University, she later earned a PhD in Physics, specializing in topological effects in superconductors. Her research focuses on quantum computing, topological superconductivity, and lithium-ion batteries. She has published 8 journal papers, contributed to 4 research projects, and is actively involved in material simulations using QuantumATK. Her work is paving the way for next-gen quantum technologies. ⚛️📚

https://chemicalscientists.com/rudivan-eldik-bioinorganic-chemistry-lifetime-achievement-award-2107/
Professional Profile
Suitability for the Researcher Award

Saida Mammadova is an exceptional researcher in the field of quantum physics and material science, with a strong academic background, extensive research contributions, and impactful innovations. Her expertise in topological superconductivity, quantum computing, and lithium-ion batteries has led to groundbreaking advancements in theoretical and applied physics. With over a decade of research experience, she has made significant strides in computational modeling, quantum materials, and spin-orbit interactions, making her a strong contender for the Best Researcher Award.

Education 🎓

  • 📘 Bachelor’s Degree in Mathematics – Baku State University
  • 📖 Master’s Degree in Mathematical Analysis – Baku State University
  • 🏅 PhD in Physics – Institute of Physics, Azerbaijan
    • Specialized in Topological Effects in Superconductors with Spin-Orbit Interaction

Experience 🔬

  • 👩‍🔬 Scientific Researcher – Institute of Physics, Ministry of Science and Education of Azerbaijan (10+ years)
  • ⚛️ Research Areas:
    • Quantum Computing 🖥️
    • Topological Superconductivity ❄️
    • Majorana Fermions 🔄
    • Density Functional Theory (DFT) 📊
    • Lithium-Ion Batteries 🔋
    • Adsorption & Diffusion in Intermetallic Crystals 🏗️
  • 🖥️ Expert in Atomistic Simulations using QuantumATK
  • 📑 Published 8 research papers in indexed journals
  • 📌 Completed 4 research projects on quantum materials and superconductivity
  • 🤝 Collaborated with Belarusian University on computational material simulations

 

Professional Development 🚀📖

Saida Mammadova has continuously expanded her expertise in quantum physics and material science through advanced research and collaborations. 🔬 She has contributed to four major research projects, focusing on quantum computing, topological superconductivity, and lithium-ion batteries. ⚛️🔋 Her work with Belarusian University enhanced her skills in computational material simulations using QuantumATK. 🖥️ She has published eight research papers in prestigious journals 📑 and actively explores new theories in superconductivity and spin-orbit interactions. 🔄 Dedicated to innovation, she strives to bridge the gap between theoretical models and real-world quantum technologies. 🌍✨

Research Focus 🔍🤖

Saida Mammadova specializes in quantum physics and material science, focusing on topological superconductivity, quantum computing, and Majorana fermions. ⚛️ She explores spin-orbit interactions and their effects on superconducting materials, contributing to next-generation quantum technologies. 🖥️ Her research extends to Density Functional Theory (DFT), lithium-ion batteries, and adsorption/diffusion in intermetallic crystals, aiming to enhance energy storage and electronic applications. 🔋📊 She also utilizes advanced simulation tools like QuantumATK to develop innovative material models, shaping the future of superconductors and nanotechnology. 🏗️🌍 Her work bridges theoretical insights with real-world applications in computational and experimental physics. 🚀

🏆 Awards & Honors of Baiyan Li

  • 🎖️ World Federation of Scientists National Scholarship – Recognized for outstanding research in topological superconductivity in quasi-1D structures.
  • 🏅 Women Research Award (Nominee) – Acknowledged for contributions to quantum computing and material science.
  • 📜 Published 8 research papers in prestigious SCI and Scopus-indexed journals.
  • 🔬 Completed 4 major research projects on quantum materials and superconductivity.
  • 🤝 Collaborated with Belarusian University on advanced computational material simulations.
 
Publication Top Notes:
  • 📌 Simulation of the adsorption and diffusion of lithium atoms on defective graphene for a Li-ion batteryMM Asadov, SO Mammadova, SS Huseynova, SN Mustafaeva, … | 🏅 Cited by: 6 | 📅 Year: 2023
  • 📌 Modeling of gold adsorption by the surface of defect grapheneMM Asadov, SO Mammadova, SS Guseinova, SN Mustafaeva, … | 🏅 Cited by: 6 | 📅 Year: 2022
  • 📌 Effect of the composition of a manganese-containing polymer catalyst on the kinetics of the oxidation reaction of n-heptane with molecular oxygenAF Isazade, UA Mammadova, MM Asadov, NA Zeynalov, DB Tagiev, … | 🏅 Cited by: 5 | 📅 Year: 2022
  • 📌 Modeling structural and energy characteristics of atoms in a GaS2D-crystal with point defectsMM Asadov, SO Mammadova, SS Guseinova, SN Mustafaeva, … | 🏅 Cited by: 4 | 📅 Year: 2022
  • 📌 Ab initio calculation of the band structure and properties of modifications of the Ti3Sb compound doped with lithiumMM Asadov, SO Mammadova, SS Guseinova, SN Mustafaeva, … | 🏅 Cited by: 4 | 📅 Year: 2022
  • 📌 Modeling of the Electronic Properties of M-Doped Supercells Li4Ti5O12–M (М = Zr, Nb) with a Monoclinic Structure for Lithium-Ion BatteriesMM Asadov, SO Mammadova, SN Mustafaeva, SS Huseynova, … | 🏅 Cited by: 2 | 📅 Year: 2024
  • 📌 Time-Reversal Invariant Topological Superconductivity in Quasi-One-Dimensional StructuresS Mammadova, E Nakhmedov, O Alekperov | 🏅 Cited by: 2 | 📅 Year: 2016
  • 📌 Adsorptive and colloidal-chemical characteristics of bentonite and its modified formsAI Yagubov, NM Muradova, SA Mammadova, UH Osmanova, … | 🏅 Cited by: 2 | 📅 Year: 2016

📌 Conclusion:

Saida Mammadova’s groundbreaking contributions, strong publication record, and dedication to advancing quantum materials research make her a highly deserving candidate for the Best Researcher Award. Her work bridges theoretical models with real-world applications, shaping the future of quantum computing, superconductivity, and nanotechnology. 🚀✨

 

 

 

 

 

 

 

Sumit Kumar | Bioorganic Chemistry | Best Scholar Award

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Mr. Sumit Kumar | Bioorganic Chemistry | Best Scholar Award

Senior Research Fellow at , Department of Chemistry, University of Delhi, India.

Sumit Kumar 🎓 is a dedicated Research Scholar and Senior Research Fellow (SRF) at the Department of Chemistry, University of Delhi, India 🏛️. With a rich academic background, including a visiting research stint at Medgar Evers College, City University of New York, USA 🌎, his expertise spans Carbohydrate Chemistry, Synthetic Organic Chemistry, and Green Chemistry ♻️. Sumit has contributed significantly to scientific literature 📚, publishing extensively in high-impact journals. His achievements include prestigious awards 🏆, national-level rankings, and conference presentations. Passionate about innovation and research, he continues to explore new frontiers in chemistry 🔬.

 

Professional Profile

 

Google Scholar

Scopus

Suitability for the Scholar  Award

Sumit Kumar 🎓 is an outstanding research scholar with a strong academic and research background. His extensive work in Bioorganic Chemistry 🧪, Carbohydrate Chemistry 🍬, and Synthetic Organic Chemistry ⚗️ has significantly contributed to scientific advancements. His research extends to C-H Activation, Cross-Coupling Reactions, and Polymer Electrolytes for Sodium Batteries 🔋, showcasing his interdisciplinary expertise. His impactful publications in high-impact journals 📚, multiple national and international awards 🏅, and recognition as a Visiting Research Scholar at CUNY, USA 🌎 make him a top contender for the Best Scholar Award.

Education 🎓

  • Senior Research Fellow (SRF) (2023-Present) – University of Delhi, India 🇮🇳 | Bioorganic Chemistry 🧪
  • Visiting Research Scholar (2022-2023) – Medgar Evers College, City University of New York, USA 🇺🇸 | Sodium Batteries 🔋
  • Junior Research Fellow (JRF) (2020-2022) – University of Delhi, India 🇮🇳 | Bioorganic Chemistry 🔬
  • M.Sc. Chemistry (2018-2020) – University of Delhi, India 🇮🇳 | Organic Chemistry 🧑‍🔬 (74.38%)
  • B.Sc. (H) Chemistry (2015-2018) – University of Delhi, India 🇮🇳 | Chemistry ⚗️ (79.46%)
  • Class 12th (2014-2015) – CBSE, India 🇮🇳 | Science 🏆 (91.00%)
  • Class 10th (2012-2013) – CBSE, India 🇮🇳 | Science 📚 (93.10%)

 

Experience 💼

  • Research Scholar & SRF – University of Delhi, India 🇮🇳 (2023-Present) 🧪
  • Visiting Research Scholar – Medgar Evers College, City University of New York, USA 🇺🇸 (2022-2023) 🔋
  • Junior Research Fellow (JRF) – University of Delhi, India 🇮🇳 (2020-2022) 🧑‍🔬
  • Teaching Experience (6+ Years) – Chemistry for Senior Secondary Students 👨‍🏫
  • Research & Publications – Authored multiple high-impact journal articles 📑
  • Conference Presentations – National & International Chemistry Symposiums 🎤

 

Professional Development 🚀📖

Sumit Kumar 🎓 is a passionate researcher committed to continuous professional development. He has participated in numerous international and national conferences 🌍, presenting groundbreaking research in chemistry 🔬. His expertise extends to advanced laboratory techniques 🏗️, including NMR, XRD, and chromatography. Sumit has completed specialized courses in digital marketing 📊, neuroleadership 🧠, and sustainability 🌱 from prestigious institutions. He has also volunteered in academic events 🎤 and contributed to organizing scientific symposiums. With multiple high-impact publications 📚 and awards 🏆, Sumit remains dedicated to innovation, collaboration, and the advancement of scientific knowledge in organic and bioorganic chemistry ⚗️.

 

Research Focus 🔍🤖

 

Sumit Kumar 🎓 focuses his research on Bioorganic Chemistry 🧪, Carbohydrate Chemistry 🍬, and Synthetic Organic Chemistry ⚗️. His work includes C-H Activation 🔬, Cross-Coupling Reactions 🔗, and Modified Nucleosides 🧬 for medicinal applications. He also explores Green Chemistry ♻️ and Polymer Electrolytes for Sodium Batteries 🔋, aiming for sustainable energy solutions. His studies contribute to drug discovery 💊, material science 🏗️, and chemical innovations. With expertise in advanced spectroscopic techniques 🔎 and multi-step organic synthesis, Sumit’s research is shaping future developments in pharmaceuticals, energy storage, and environmental chemistry 🌱.

 

Awards & Honors 🏅🎖️

 

  • Best Professor Ashok Prasad Memorial Research Award (2024) – University of Delhi 🏛️
  • Visiting Research Scholar (2022-2023) – Medgar Evers College, City University of New York, USA 🇺🇸
  • First Prize 🥇 in Poster Presentation (2023) – International Chemistry Symposium, University of Delhi 🎤
  • Provisional Ph.D. Admission Offers – IISER Pune, IISER Bhopal, CDRI Lucknow, NCL Pune 🎓
  • All India Rank 50 – CSIR-JRF Fellowship Exam (2019) 🧪
  • All India Rank 18 – CSIR-NET Lectureship Exam (2018) 🏅
  • GATE Qualified (2020) – IIT Conducted Exam ⚗️
  • All India Rank 10 – DU-PG Entrance Test (2018) 📚
  • Multiple National & International Conference Awards 🎖️

 

Publication Top Notes:

1️⃣ Microwave-assisted N-Directed Pd-Catalyzed Direct ortho-AcyloxylationTetrahedron (2025) 🔬 | Cited by: [Yet to be updated]
2️⃣ Design and Synthesis of a Carbohydrate-Derived Chemosensor for Ni(II) DetectionCarbohydrate Research (2025) 🧪 | Cited by: [Yet to be updated]
3️⃣ Microwave-Assisted Pd-Catalyzed Cross-Coupling of Aryl Alkyl SelenidesOrganic & Biomolecular Chemistry (2025) ⚗️ | Cited by: [Yet to be updated]
4️⃣ Chitosan-Based Bionanocomposites for Corrosion InhibitionInternational Journal of Biological Macromolecules (2025) 🌱 | Cited by: [Yet to be updated]
5️⃣ Synthesis of Base-Modified Fluorescent Furo[3,2-c]coumarin NucleosidesJournal of Molecular Structure (2024) 🔎 | Cited by: [Yet to be updated]
6️⃣ Microwave-Assisted Synthesis of Fluorescent 1,4-Dihydropyridine NucleosidesRSC Advances (2024) 🔬 | Cited by: [Yet to be updated]
7️⃣ Recent Advances in Acyclic Nucleosides & Their Therapeutic ApplicationsTopics in Current Chemistry (2024) 💊 | Cited by: [Yet to be updated]

📌 Conclusion:

Sumit Kumar’s exceptional research output, academic excellence, global recognition, and contribution to cutting-edge chemistry research make him highly suitable for the Best Scholar Award 🏆. His ability to merge multiple disciplines, his leadership in academic events, and his dedication to impactful research solidify his candidacy as one of the most deserving scholars for this prestigious honor. 🚀

 

 

 

 

 

Walid Oueslati | Solids state chemistry | Excellence in Research Award

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Assoc. Prof. Dr. Walid Oueslati | Solids state chemistry | Excellence in Research Award

Associate. Professor at ,University of Carthage, Faculty of Science of Bizerte, LR19ES20: Resources, Materials, and Ecosystems (RME), Tunisia.

Dr. Walid Oueslati 🎓 is a distinguished researcher and professor at the University of Carthage, Faculty of Sciences of Bizerte, Tunisia 🇹🇳. With an H-index of 16 📊 and over 80 publications 📚, his expertise spans environmental science, nanomaterials, and analytical chemistry 🧪. A recognized top reviewer 🏅 in multidisciplinary fields, he has significantly contributed to marine pollution studies 🌊, materials science 🏗️, and sustainability 🌍. His work has been cited over 700 times, reflecting his impact in scientific research 🔬. Dr. Oueslati remains committed to advancing knowledge through peer reviews and editorial contributions ✍️.

Professional Profile
Orcid
Suitability for the Excellence in Research Award

Dr. Walid Oueslati is highly suitable for an Excellence in Research Award due to his significant contributions to environmental science 🌍, nanomaterials 🏗️, and analytical chemistry 🧪. With 81 publications, an H-index of 16, and 733 citations 📊, his research has had a notable impact in scientific communities. Recognized as a top peer reviewer with 208 manuscript reviews, his dedication to advancing research through publication, peer evaluation, and editorial roles makes him a strong candidate for such recognition.

Education 🎓

    • Ph.D. in Chemistry 🧪 – Specialization in Environmental Science and Nanomaterials
    • Master’s in Analytical Chemistry 📊 – Focus on Material Characterization and Spectroscopy
    • Bachelor’s in Chemistry 🏛️ – Strong foundation in Chemical Sciences

 

Experience 💼

  • Professor at the University of Carthage, Faculty of Sciences of Bizerte, Tunisia 🇹🇳
    • Teaching and mentoring students in Analytical Chemistry and Environmental Science
    • Supervising research in nanomaterials and pollution assessment
  • Renowned Researcher 🔬
    • Published 81 research papers in prestigious journals 📚
    • H-index 16 with 733 citations 📈
  • Peer Reviewer & Editor 🏅
    • Recognized as a top reviewer in multidisciplinary fields
    • Reviewed 208 manuscripts and contributed to editorial boards
  • Expert in Environmental & Material Science 🌍
    • Specialized in marine pollution studies, nanotechnology, and material characterization
    • Investigated heavy metal contamination, soil chemistry, and advanced photocatalytic materials

 

Professional Development 🚀📖

Dr. Walid Oueslati 📚 has continuously expanded his expertise through extensive professional development. As a top peer reviewer 🏅, he has evaluated 208 manuscripts, staying updated with the latest research trends 🔬. His editorial contributions ✍️ have strengthened his expertise in environmental science 🌍, nanomaterials 🏗️, and analytical chemistry 🧪. Actively engaging in international conferences 🎤, he collaborates with global researchers 🤝 to advance scientific knowledge. With 81 publications 📄 and 733 citations 📊, he remains dedicated to innovation and academic excellence. His commitment to mentorship and interdisciplinary research fosters future scientific breakthroughs 🚀

Research Focus 🔍🤖

Dr. Walid Oueslati’s research focuses on Environmental Science 🌍, Nanomaterials 🏗️, and Analytical Chemistry 🧪. His work explores marine pollution 🌊, heavy metal contamination ⚠️, and sustainable materials ♻️. He specializes in nanocomposites for water purification 💧, photocatalytic materials for environmental cleanup 🌱, and crystal structure analysis 🔬. His studies on soil and sediment contamination 🏞️ help assess ecological risks. With expertise in spectroscopy and material characterization 📊, he develops innovative solutions for pollution control. His research contributes to sustainability, green chemistry, and environmental protection, making a significant impact in multidisciplinary scientific fields 🚀.

Awards & Honors 🏅🎖️

    • Top Reviewer Award 🏅 – Recognized as a top reviewer in multidisciplinary research (2017)
    • Highly Cited Researcher 📊 – Over 733 citations in scientific literature
    • Outstanding Research Contribution Award 🎖️ – For impactful studies in environmental science and nanomaterials
    • Editorial Board Recognition ✍️ – Served as a reviewer for 208 manuscripts across top journals
    • Academic Excellence Award 🎓 – Honored for significant contributions to analytical chemistry and material science
    • International Conference Speaker 🎤 – Invited to present research findings in global scientific forums

     

     

Publication Top Notes:
  • Multifunctional Chitosan/Montmorillonite/TiO₂ Nanocomposites 🏗️ – Journal of the Indian Chemical Society (2025) | DOI: 10.1016/j.jics.2025.101606 |
  • Groundwater Frontiers – Techniques and Challenges 🌍 – Earth Sciences (2025) | DOI: 10.5772/intechopen.1003541 |
  • A Critical Review of Clay Minerals for Groundwater Protection and Treatment 💧 – Book Chapter (2024) | DOI: 10.5772/intechopen.1008385 |
  • Uncovering the Possibilities of Ceramic Ba(1−x)CoₓTiO₃ Nanocrystals ⚡ – Solids (2024) | DOI: 10.3390/solids5030031 |
  • Simulating the Impact of Electron Beam Energy Deposition on Lead Target Temperature ☢️ – Nuclear Analysis (2024) | DOI: 10.1016/j.nucana.2024.100113 |
  • Synthesis Reaction Kinetics, Structural Changes, and Photocatalytic Efficiency of Chitosan–Clay Nanocomposite 🔬 – Solids (2024) | DOI: 10.3390/solids5020015 |

📌 Conclusion:

Dr. Walid Oueslati’s research excellence, impactful publications, and dedication to scientific advancements make him a strong candidate for an Excellence in Research Award. His contributions to environmental sustainability, nanomaterials, and analytical chemistry have significantly influenced global research. His commitment to innovation, peer review, and interdisciplinary collaboration further solidifies his eligibility for this prestigious recognition. 🚀👏