Shuang Guo | Spectroscopy | Best Researcher Award |

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Dr.Shuang Guo | Spectroscopy | Best Researcher Award |

Nanyang Institute of Technology | China

Dr. Shuang Guo is a dedicated materials scientist affiliated with the Nanyang Institute of Technology, Nanyang, China. With a growing international research presence, Dr. Guo has contributed significantly to the fields of chalcogenide phase-change materials, optical spectroscopy, and luminescent functional materials. His research primarily focuses on the structural, electronic, and photonic properties of advanced materials for next-generation data storage, energy conversion, and optoelectronic applications.Throughout his academic career, Dr. Guo has authored 28 scientific publications, which have collectively garnered over 509 citations, reflecting his active engagement and influence within the materials science community. His h-index of 11 underscores the sustained relevance and academic impact of his research contributions. Recent works, such as “Raman scattering spectroscopy study on chalcogenide phase-change materials” and “Insight into Cr³⁺-activated NIR phosphor with extremely high thermal stability for NIR LEDs” (2025), highlight his innovative approach to understanding phase transitions and optimizing photoluminescent behavior in complex material systems.Dr. Guo’s collaborative spirit is evident from his work with over 70 co-authors across interdisciplinary domains including physics, chemistry, and engineering. His studies bridge fundamental science with technological applications, offering insights crucial to the development of energy-efficient lighting, high-density data storage, and thermally stable luminescent devices. Beyond publications, his research contributes to advancing sustainable technologies and enhancing material performance under extreme conditions—key to progress in the semiconductor and optoelectronics industries. With a strong foundation in spectroscopic analysis and solid-state chemistry, Dr. Guo continues to drive scientific innovation through rigorous experimentation and collaborative inquiry, strengthening global research connections in the rapidly evolving landscape of materials science.

Profiles : Scopus | ORCID

Featured Publications

1. Guo, S., Wang, Y., Zhang, J., Wu, L., & Song, Z. (2025). Raman scattering spectroscopy study on chalcogenide phase-change materials. Materials Science & Engineering: B, 322, Article 118649.

2. Wang, Y., Liu, S., Guo, S., Zhou, J., … (2025). Insight into Cr³⁺-activated NIR phosphor with extremely high thermal stability for NIR LEDs. Journal of Alloys and Compounds. Cited by 4.

Dr. Shuang Guo’s research advances the understanding of phase-change and luminescent materials, driving innovations in energy-efficient lighting, high-density data storage, and next-generation optoelectronic devices. His work bridges fundamental spectroscopy and applied materials engineering, fostering scientific progress and technological sustainability on a global scale.

 

Hassan Namazi | Polymer Chemistry | Best Paper Award

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Prof. Hassan Namazi | Polymer Chemistry | Best Paper Award 

University of Tabriz | Iran

Professor Hassan Namazi is a leading scientist and academic renowned for his pioneering work in polymer chemistry, nanobiopolymers, and advanced drug delivery systems. His research focuses on the design, synthesis, and characterization of dendrimers, metal–organic frameworks (MOFs), and stimuli-responsive biopolymer nanocomposites for applications in cancer therapy, targeted drug delivery, and water remediation. With extensive experience in polymer synthesis, nanocomposite fabrication, spectroscopy, materials characterization, and computational modeling, he has developed innovative platforms for controlled and co-delivery of therapeutic agents, emphasizing biocompatibility, efficiency, and environmental sustainability. His contributions span fundamental research and practical applications, including photoluminescent polymers, glycodendrimers, and hybrid nanomaterials, establishing him as a key figure in advancing multifunctional biomaterials and nanotechnology-driven solutions. Prof. Namazi’s dedication to scientific excellence is reflected in his mentorship of emerging researchers, collaboration with interdisciplinary teams, and prolific publication record, demonstrating a consistent impact on both academic and applied chemical sciences. His work has earned national and international recognition, showcasing his leadership in developing eco-friendly polymers, functional nanocarriers, and stimuli-responsive drug delivery systems that address pressing biomedical and environmental challenges. Professor Namazi’s growing academic impact is evidenced by 10,627 citations, 211 documents, and an h-index of 63, reflecting his outstanding influence and leadership in the global materials science community.

Profiles : Google scholar | Scopus | ORCID | ResearchGate | LinkedIn

Featured Publications

Pooresmaeil, M., & Namazi, H. (2026). Iron oxide nanoparticles/polymer nanocomposite hydrogels. In Hydrogels for Wound Healing (pp. 327–363).

Karimi, S., & Namazi, H. (2025). Chitosan/dialdehyde starch coating onto l-tyrosine and curcumin intercalated layered double hydroxide for improved the therapeutic effects of breast cancer. International Journal of Biological Macromolecules, 147274.

Rasoulzadehzali, M., Namazi, H., Larsen, K. L., Mahoutforoush, A., … (2025). Engineering pH-sensitive CA/GO nanocomposite beads for dual-drug oral delivery: Improved therapeutic efficacy against breast cancer cells. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 138081.

Jafari, H., & Namazi, H. (2025). κ-carrageenan coated magnetic hydroxypropyl methylcellulose/chitosan nanoparticles as a pH-sensitive nanocarrier for efficient methotrexate release. International Journal of Biological Macromolecules, 146750. Cited by 1

Karimi, S., & Namazi, H. (2025). Doxorubicin-curcumin-co loaded layered double hydroxide coated with dialdehyde lactose/ZnO via Schiff-base bonding for simultaneous and targeted delivery of drugs to …. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 715, 136628. Cited by 5

Ayse Aktas Kamiloglu | Inorganic Chemistry | Best Researcher Award

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Assoc. Prof. Dr. Ayse Aktas Kamiloglu | Inorganic Chemistry | Best Researcher Award

Associate Professor | Karadeniz Technical University | Turkey

Assoc. Prof. Dr. Ayse Aktas Kamiloglu is a distinguished inorganic chemist at Karadeniz Technical University, renowned for her contributions to the design and application of phthalocyanine-based materials in catalysis, photochemistry, and medicinal chemistry. Her research focuses on coordination compounds and metal-based functional materials, emphasizing structure–property relationships that drive innovation in inorganic and organometallic systems. She has successfully led several TÜBİTAK- and AÇÜBAP-supported research projects on the synthesis, spectroscopic characterization, and functional evaluation of metallophthalocyanines and Schiff base derivatives with biological and catalytic activities. Her expertise spans coordination chemistry, photophysical and photochemical analysis, electrochemistry, and the development of bioactive organometallic complexes, particularly for enzyme inhibition relevant to neurodegenerative disorders. Dr. Kamiloglu has authored over 30 SCI-indexed publications in reputed journals such as Applied Organometallic Chemistry, Journal of Coordination Chemistry, and Journal of Organometallic Chemistry, contributing valuable insights into metal–ligand interactions and their technological implications. Recognized for her scientific achievements, she has received numerous awards for research excellence and innovation. With 418 citations, 31 publications, and an h-index of 12, she continues to make impactful contributions to the advancement of inorganic and materials chemistry while fostering international collaboration and mentoring future scientists.

Profiles :  Google Scholar | Scopus | ORCID | ResearchGate

Featured Publications

 

Limin Gu | Medicinal Chemistry | Best Research Article Award

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Prof. Dr. Limin Gu | Medicinal Chemistry | Best Research Article Award

Associate Professor | Hebei University of Science and Technology | China

Prof. Dr. Limin Gu is a distinguished Associate Professor and a leading researcher in the field of flame retardant materials and materials science and engineering. She has made significant contributions to advancing sustainable flame-retardant technologies through her work at the College of Chemical and Pharmaceutical Engineering, Hebei University of Science & Technology, and as an active member of the Research Center for Chemical Safety & Security and Verification Technology. Her research focuses on intrinsically flame-retardant polymer synthesis, bio-based halogen-free flame retardants, graphene functionalization, and computer vision-assisted chemical analysis. With strong expertise in analytical techniques such as GC, GC-MS, HPLC, TGA, and TG-IR, she effectively integrates experimental and applied approaches in her studies. Prof. Gu has authored more than 20 scientific publications in prestigious journals including European Polymer Journal, Journal of Thermal Analysis and Calorimetry, and Journal of Applied Polymer Science, and has also published a scholarly monograph on flame-retardant waterborne polyurethane materials. Her innovative research has led to over ten awarded Chinese patents related to bio-based flame retardants, phosphonium compounds, and multifunctional polymeric materials, highlighting her dedication to developing eco-friendly and high-performance flame-retardant systems. Recognized for her scientific excellence and contributions to sustainable materials development, Prof. Gu continues to influence the advancement of green chemistry and polymer innovation. Her growing academic impact is demonstrated by 227 citations, 17 documents, and an h-index of 8, reflecting her emerging leadership and meaningful contributions to the global materials science community.

Profiles : Scopus | ORCID | ResearchGate

Featured Publications

Gu, L., Shi, Y., Liu, W., Zhang, L., & Ge, Y. (2025). Synthesis and characterization of the hemicellulose-based “three sources into one” intumescent flame retardant and its modification on cellulose. Journal of Thermal Analysis and Calorimetry, 150(12), 9105-9119.

Sabyasachi Sarkar | Bioinorganic Chemistry | Best Researcher Award

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Prof. Dr. Sabyasachi Sarkar | Bioinorganic Chemistry | Best Researcher Award 

Honorary Distinguished Professor | Ramakrishna Mission Vidyamandira | India

Prof. Dr. Sabyasachi Sarkar is a distinguished chemist whose pioneering work bridges fundamental and applied research, combining enzymatic and nanocarbon innovations to create transformative solutions for science and society. He has led and contributed to advanced research in bioinorganic chemistry, catalysis, and nanomaterial systems, with a focus on enzyme-inspired catalysis, sustainable chemical processes, and nanocarbon-based energy conversion. His interdisciplinary research integrates biochemical principles with material science, resulting in significant advancements in metalloenzyme modeling, biomimetic catalyst development, and functional nanomaterials. Prof. Sarkar’s contributions are further exemplified by multiple groundbreaking patents in drug delivery, ambient energy conversion, and catalytic ammonia synthesis, demonstrating both innovation and real-world applicability. His academic influence extends through the training and mentoring of scientists, fostering collaborations across chemistry, biology, and materials science. Prof. Sarkar has received numerous honors and recognitions for his excellence in research and education, reflecting his role as a global leader in advancing sustainable chemistry. His scholarly impact is evident in his 6,444 citations, 229 documents, and an h-index of 39, underscoring the enduring significance and reach of his work in chemical sciences.

Profiles : Google Scholar | Scopus | ORCID | ResearchGate | LinkedIn

 

Featured Publications

Müller, A., Sarkar, S., Shah, S. Q. N., Bögge, H., Schmidtmann, M., & Sarkar, S., et al. (1999). Archimedean synthesis and magic numbers: “Sizing” giant molybdenum‐oxide‐based molecular spheres of the keplerate type. Angewandte Chemie International Edition, 38(21), 3238–3241. Cited by: 503.

Tripathi, S., Sonkar, S. K., & Sarkar, S. (2011). Growth stimulation of gram (Cicer arietinum) plant by water soluble carbon nanotubes. Nanoscale, 3(3), 1176–1181. Cited by: 358.

Goswami, S., Das, S., Aich, K., Pakhira, B., Panja, S., Mukherjee, S. K., & Sarkar, S. (2013). A chemodosimeter for the ratiometric detection of hydrazine based on return of ESIPT and its application in live-cell imaging. Organic Letters, 15(21), 5412–5415. Cited by: 263.

Das, S. K., Chaudhury, P. K., Biswas, D., & Sarkar, S. (1994). Modeling for the active site of sulfite oxidase: Synthesis, characterization, and reactivity of [MoVIO₂(mnt)₂]²⁻ (mnt²⁻ = 1,2-dicyanoethylenedithiolate). Journal of the American Chemical Society, 116(20), 9061–9070. Cited by: 217.

Tripathi, S., & Sarkar, S. (2015). Influence of water soluble carbon dots on the growth of wheat plant. Applied Nanoscience, 5(5), 609–616. Cited by: 200.

Moussa Ouakki | Electrochemistry | Best Researcher Award

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Prof. Moussa Ouakki | Electrochemistry | Best Researcher Award

Ibn Tofail University| Morocco

Prof. Moussa Ouakki is a distinguished Moroccan chemist and academic scholar serving as Maître de Conférence en Chimie at the École Nationale Supérieure de Chimie, Université Ibn Tofaïl, Kénitra, Maroc. He holds a doctorate in Fundamental and Applied Chemistry with a specialization in the valorization of imidazole compounds for corrosion inhibition of steel in acidic media through theoretical, electrochemical, and spectroscopic studies. His academic background also includes advanced training in physicochemical materials, organic and environmental chemistry, and life sciences. In addition, he has pursued professional development in chemical education, patent systems, and chemical safety in collaboration with the Organisation for the Prohibition of Chemical Weapons (OPCW). Throughout his academic career, Prof. Ouakki has contributed extensively to teaching, research supervision, and curriculum design across undergraduate, engineering, and doctoral programs. His teaching expertise spans electrochemical kinetics, materials science, corrosion mechanisms, and electrolyte chemistry. His research interests focus on corrosion inhibition, green chemistry, electrochemical analysis, materials development, and theoretical modeling of corrosion systems. His research skills include density functional theory (DFT), electrochemical impedance spectroscopy, electrodeposition, dielectric characterization, and molecular dynamics simulations. He has co-supervised several doctoral candidates, published more than a hundred international research papers, contributed multiple book chapters, and secured a patent for novel imidazole-based corrosion inhibitors. As a respected member of editorial boards and a reviewer for leading scientific journals, Prof. Ouakki continues to make remarkable contributions to advancing sustainable chemistry and materials protection. His academic impact is further reflected in his growing recognition with 3,836 citations, 125 documents, and an h-index of 41.

Profiles: Google Scholar | Scopus | ORCID

Featured Publications

Ouakki, M., Galai, M., Rbaa, M., Abousalem, A. S., Lakhrissi, B., Rifi, E. H., & Ebn Touhami, M. (2019). Quantum chemical and experimental evaluation of the inhibitory action of two imidazole derivatives on mild steel corrosion in sulphuric acid medium. Heliyon, 5(11), e02716. Cited by: 147

Rbaa, M., Ouakki, M., Galai, M., Berisha, A., Lakhrissi, B., Jama, C., Warad, I., & Touhami, M. E. (2020). Simple preparation and characterization of novel 8-hydroxyquinoline derivatives as effective acid corrosion inhibitor for mild steel: Experimental and theoretical studies. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 602, 125094. Cited by: 144

Ouakki, M., Galai, M., Rbaa, M., Abousalem, A. S., Lakhrissi, B., Touhami, M. E., & Cherkaoui, M. (2020). Electrochemical, thermodynamic and theoretical studies of some imidazole derivatives compounds as acid corrosion inhibitors for mild steel. Journal of Molecular Liquids, 319, 114063. Cited by: 140

Ouakki, M., Galai, M., & Cherkaoui, M. (2022). Imidazole derivatives as efficient and potential class of corrosion inhibitors for metals and alloys in aqueous electrolytes: A review. Journal of Molecular Liquids, 345, 117815. Cited by: 123

Oubaaqa, M., Ouakki, M., Rbaa, M., Abousalem, A. S., Maatallah, M., Benhiba, F., & Touhami, M. E. (2021). Insight into the corrosion inhibition of new amino acids as efficient inhibitors for mild steel in HCl solution: Experimental studies and theoretical calculations. Journal of Molecular Liquids, 334, 116520.

 

Nezar H Khdary | Organic Chemistry | Best Researcher Award

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Prof. Dr. Nezar H Khdary | Organic Chemistry | Best Researcher Award

Research Professor | King Abdulaziz City for Science and Technology | Saudi Arabia

Prof. Dr. Nezar H. Khdary is a distinguished Saudi scientist at the King Abdulaziz City for Science and Technology (KACST), Riyadh, where he serves as a senior researcher and expert in nanotechnology, analytical chemistry, and environmental science. He earned his Ph.D. from the University of Southampton, UK , specializing in Silica Nano-Scavengers for the Determination of Environmental Pollutants. His academic journey also includes professional certification as a Public Health Consultant from the Saudi Commission for Health Specialties and visiting research appointments at Northwestern University and the University of Central Florida. Dr. Khdary possesses a broad interdisciplinary expertise encompassing nanomaterials, photocatalysis, green chemistry, CO₂ capture and conversion, hydrogen evolution, and public health research. He has undergone advanced professional training in over twenty international courses and workshops, including those from Duke University, Johns Hopkins University, the University of Michigan, and KAUST, covering topics from climate change and environmental health to advanced microscopy, data analytics, and intellectual property. His prolific research output spans more than 45 publications in high-impact journals such as Catalysts, RSC Advances, Nanomaterials, Sustainability, and Journal of Molecular Liquids, contributing significantly to the fields of nanocatalysis, photoreduction, and sustainable energy conversion. Dr. Khdary’s extensive technical proficiency includes advanced analytical techniques such as GC-MS, LC-MS, XRD, FE-SEM, UV-Vis, BET surface area analysis, and potentiostat methods. Throughout his career, he has demonstrated leadership in scientific innovation and mentoring, earning recognition through national and international collaborations aimed at addressing environmental and energy challenges. His contributions reflect a deep commitment to advancing sustainable technologies and public health. Dr. Khdary’s academic impact is further reflected in his growing recognition with 905 citations, 45 documents, and an h-index of 18.

Profiles: Google scholar | scopus | ORCID |ReasearchGate | LinkedIn

Featured Publications

1. Alsarhan, L. M., Alayyar, A. S., Alqahtani, N. B., & Khdary, N. H. (2021). Circular carbon economy (CCE): A way to invest CO₂ and protect the environment, a review. Sustainability, 13(21), 11625. Cited by: 118

2. Khdary, N. H., Alayyar, A. S., Alsarhan, L. M., Alshihri, S., & Mokhtar, M. (2022). Metal oxides as catalyst/supporter for CO₂ capture and conversion: A review. Catalysts, 12(3), 300. Cited by: 103

3. Khdary, N. H., Almuarqab, B. T., & El Enany, G. (2023). Nanoparticle-embedded polymers and their applications: A review. Membranes, 13(5), 537. Cited by: 81

4. Khdary, N. H., Abdesalam, M. E., & El Enany, G. E. L. (2014). Mesoporous polyaniline films for high performance supercapacitors. Journal of The Electrochemical Society, 161(9), G63–G68. Cited by: 79

5. Howard, A. G., & Khdary, N. H. (2007). Spray synthesis of monodisperse sub-micron spherical silica particles. Materials Letters, 61(8–9), 1951–1954. Cited by: 53

Matias Cardenas | Analytical Chemistry | Young Scientist Award

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Dr. Matias Cardenas | Analytical Chemistry | Young Scientist Award

Universidad Nacional de Río Cuarto | Argentina

Dr. Matias Alberto Cardenas is an emerging leader in analytical chemistry whose academic journey began with a degree in Microbiology from the Universidad Nacional de Río Cuarto, eventually culminating in a Doctorate in Chemical Sciences (Ph.D., Universidad Nacional de Río Cuarto, 2025) with a thesis on electroanalytical detection of neonicotinoids in honey. Over the course of his academic and professional trajectory, he has built a strong profile combining teaching, research, and project leadership: he has served as a teaching assistant in microbiology and chemistry courses, evaluated faculty competitions, and held administrative roles such as departmental counselor and evaluator of socio-community practices. His professional experience includes directing and collaborating in multiple research projects funded by national agencies (FONCYT, CONICET, SECyT), including leading the “ApisLoq” nanoparticle-based biopesticide project, and contributing to interdisciplinary programs aiming at sustainable contaminant analysis in agro-food systems. His research interests lie in electrochemical sensor technology, nanomaterials, chemometric data analysis, and food and environmental contaminant detection, and he is skilled in applying electroanalytical techniques, multivariate statistics, sensor fabrication, separation methods, and method validation. Notably, his publications include articles such as Chemometric-assisted electrochemical sensor for simultaneous determination of neonicotinoids imidacloprid and thiamethoxam in honey (Analytical Methods) and Reduction of Fusarium proliferatum growth and fumonisin accumulation by ZnO nanoparticles (International Journal of Food Microbiology). His leadership in research projects, conference presentations across Latin America and Europe, and service in academic governance reflect strong dedication to community and science. In recognition of his contributions, he has earned awards such as “Best Poster” and “Best Work” in electroanalytical chemistry at national conferences. In summary, Dr. Cardenas combines solid educational credentials, relevant professional experience, advanced technical skills, a growing record of impactful publications, and formal honors — making him a promising researcher with significant potential to contribute to global analytical chemistry. Dr. Cardenas’s academic impact is further reflected in his growing recognition with 1 citation, 2 documents, and an h-index of 1.

Profiles: scopus | ORCID

Featured Publications

1. Cardenas, M. A., Vignati, M., Pierini, G. D., Robledo, S. N., Moressi, M. B., & D’Eramo, F. (2025). Chemometric-assisted electrochemical sensor for simultaneous determination of neonicotinoids imidacloprid and thiamethoxam in honey samples. Analytical Methods.

2. Cardenas, M. A., Alaníz, R. D., Crapnell, R., Robledo, S. N., Fernández, H., Arévalo, F. J., Granero, A. M., Banks, C. E., & Pierini, G. D. (2025, August 13). Electrochemically activated screen-printed graphene electrochemical sensor for daidzein determination in edible peanut oils. Chemosensors.

3. Pena, G. A., Cardenas, M. A., Monge, M. P., Yerkovich, N., Planes, G. A., & Chulze, S. N. (2022). Reduction of Fusarium proliferatum growth and fumonisin accumulation by ZnO nanoparticles both on a maize based medium and irradiated maize grains. International Journal of Food Microbiology.

Vidyasrilekha Sanapalli | Medicinal Chemistry | Excellence in Innovation Award

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Dr. Vidyasrilekha Sanapalli | Medicinal Chemistry | Excellence in Innovation Award

Assistant Professor| SVKM’S NMIMS University| India

Dr. Vidyasrilekha Sanapalli is a medicinal and process chemist whose expertise bridges synthetic organic chemistry, computational chemistry, and pharmaceutical sciences, with a research focus on antibacterial agents, anticancer compounds, and diabetic wound therapeutics. She earned her Ph.D. in Pharmaceutical Chemistry as an AICTE National Doctoral Fellow from JSS Academy of Higher Education and Research, Mysuru (JSS College of Pharmacy, Ooty) in 2021, where her work combined synthesis, structure–activity relationship (SAR) studies, and advanced computational approaches such as molecular docking, molecular dynamics, and 3D-QSAR modeling. Prior to this, she obtained her M.Tech (Pharma) in Process Chemistry from NIPER Hyderabad (2016–2018) with a perfect CGPA of 10/10, securing the gold medal for academic excellence, and completed her B. Pharm from Osmania University in 2016, also as a gold medalist. Dr. Sanapalli’s career reflects a strong integration of academic excellence, innovative research, and impactful teaching. She has served as an Assistant Professor at Marwadi University, NIMS University, and currently at NMIMS University, where she teaches medicinal chemistry, pharmaceutical analysis, and related courses while mentoring students in cutting-edge research. Her research portfolio is extensive, with contributions in the design, synthesis, and computational evaluation of novel antibacterial scaffolds, the development of repurposed immune-stimulating and antidiabetic wound-healing agents, and the investigation of heterocyclic derivatives for therapeutic applications. She has published over 28 research papers in high-impact SCI-indexed journals, filed three Indian patents (two granted), and secured competitive fellowships and grants, including the prestigious AICTE National Doctoral Fellowship, NIPER Fellowship, and a Marwadi University Seed Grant. Dr. Sanapalli has also delivered invited lectures, such as her talk on structure-based drug design at RBVRR Women’s College of Pharmacy, Hyderabad, highlighting her contributions to knowledge dissemination. Her outstanding research achievements have been recognized through numerous awards, including the Best Women Researcher Award (2021), Young Researcher Award (2020), and multiple gold medals for academic excellence during her M.Tech and B. Pharm studies.With strong expertise in organic synthesis, process optimization, green chemistry, purification techniques, and structural elucidation, coupled with advanced skills in computational drug design using Schrödinger, Maestro, and molecular modeling tools, Dr. Sanapalli brings a rare multidisciplinary perspective to pharmaceutical research. Her scientific vision is centered on developing novel chemical entities and innovative therapeutic strategies to tackle multidrug resistance, cancer, and chronic conditions such as diabetic wounds. As a life member of InSc and APTI and a registered pharmacist under the Telangana Pharmacy Council, she remains deeply engaged with both the scientific community and professional practice. Through her diverse body of work, Dr. Vidyasrilekha Sanapalli exemplifies the synergy of academic brilliance, research innovation, and translational impact in medicinal chemistry.

Profile: Google Scholar | ORCID 

Featured Publications

  1. Sanapalli BKR, Yele V, Singh MK, Krishnamurthy PT, Karri VVSR. Preclinical models of diabetic wound healing: A critical review. Biomed Pharmacother. 2021;142:111946. Cited by 55

  2. Sanapalli BKR, Ashames A, Sigalapalli DK, Shaik AB, Bhandare RR, et al. Synthetic imidazopyridine-based derivatives as potential inhibitors against multi-drug resistant bacterial infections: A review. Antibiotics. 2022;11(12):1680. Cited by 31

  3. Yele V, Azam MA, Wadhwani AD. Synthesis, molecular docking and biological evaluation of 2‐Aryloxy‐N‐Phenylacetamide and N′‐(2‐Aryloxyoxyacetyl) benzohydrazide derivatives as potential … Chem Biodivers. 2021;18(4):e2000907. Cited by 29

  4. Singh MK, Pindiprolu SKSS, Sanapalli BKR, Yele V, Ganesh GNK. HER2 targeted biological macromolecule modified liposomes for improved efficacy of capecitabine in breast cancer. Int J Biol Macromol. 2020;150:631-636. Cited by 25

  5. Sanapalli BKR, Yele V, Singh MK, Thumbooru SN, Parvathaneni M, et al. Human beta defensin-2 loaded PLGA nanoparticles impregnated in collagen-chitosan composite scaffold for the management of diabetic wounds. Biomed Pharmacother. 2023;161:114540. Cited by 22

  6. Sanapalli BKR, Yele V, Jupudi S, Karri VVSR. Ligand-based pharmacophore modeling and molecular dynamic simulation approaches to identify putative MMP-9 inhibitors. RSC Adv. 2021;11(43):26820-26831. Cited by 22

  7. Singh MK, Pindiprolu SKSS, Sanapalli BKR, Yele V, Ganesh GNK. Tumor homing peptide modified liposomes of capecitabine for improved apoptotic activity and HER2 targeted therapy in breast cancer: In vitro studies. RSC Adv. 2019;9(43):24987-24994. Cited by 21

  8. Yele V, Sigalapalli DK, Jupudi S, Mohammed AA. DFT calculation, molecular docking, and molecular dynamics simulation study on substituted phenylacetamide and benzohydrazide derivatives. J Mol Model. 2021;27(12):359. Cited by 18

  9. Yele V, Pindiprolu SKSS, Sana S, Ramamurty D, Madasi JRK, et al. Synthesis and preclinical evaluation of indole triazole conjugates as microtubule targeting agents that are effective against MCF-7 breast cancer cell lines. Anti-Cancer Agents Med Chem. 2021;18: [page numbers not provided]. Cited by 18

  10. Sanapalli BKR, Yele V, Kalidhindi RSR, Singh SK, Gulati M, Karri VVSR. Human beta defensins may be a multifactorial modulator in the management of diabetic wound. Wound Repair Regen. 2020;28(3):416-421. Cited by 16

  11. Yele V, Sanapalli BKR, Mohammed AA. Imidazoles and benzimidazoles as putative inhibitors of SARS-CoV-2 B.1.1.7 (Alpha) and P.1 (Gamma) variant spike glycoproteins: A computational approach. Chem Pap. 2022;76(2):1107-1117. Cited by 12

  12. Yele V, Mohammed AA, Wadhwani AD. Synthesis and evaluation of aryl/heteroaryl benzohydrazide and phenylacetamide derivatives as broad‐spectrum antibacterial agents. ChemSelect. 2020;5(34):10581-10587. Cited by 10

Jingyuan Chen | Electrochemistry | Best Researcher Award

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Prof. Dr. Jingyuan Chen | Electrochemistry | Best Researcher Award

professor | University of Fukui | Japan

Professor Jingyuan Chen, Ph.D., is a distinguished scholar in electrochemistry whose remarkable career has been shaped by resilience, intellectual curiosity, and a lifelong dedication to advancing both scientific knowledge and education. Born on September 18, 1957, in Xiamen, China, she grew up during a time of profound social and educational change, and in 1977 she became part of the first generation of students to pass the reinstated university entrance examinations following the Cultural Revolution. This milestone opened the door to higher education, and she pursued her undergraduate studies at Tianjin University of Science and Technology, where she earned a bachelor’s degree in Marine Science and Engineering in 1982. Following graduation, she applied her skills in the chemical industry, first as an engineer at Xiamen Electrochemistry Company and later as Chief Director of Research and Technology Development at Nongru Nianhe Chemistry Company, where she gained invaluable practical experience in developing new chemical processes and technologies. Motivated by a desire to deepen her expertise and contribute to fundamental science, she moved to Japan in 1990 to pursue graduate studies at the University of Fukui. There, she completed her master’s degree in Applied Chemistry and Biotechnology in 1993, followed by her Ph.D. in Materials Engineering in 1996 under the mentorship of Professor Koichi Aoki. Her doctoral research, titled Statistical Thermodynamics of Redox Interaction at Polynuclear Transition-Metal Complexes, combined theoretical models with chemical synthesis, electrochemical measurements, and spectroscopic techniques, establishing a strong foundation for her later research into the physics of interfacial phenomena in electrochemistry. After earning her Ph.D., Professor Chen began her professional research career as a senior researcher at MAEDA KOSEN Company Limited from 1996 to 1998, where she bridged the gap between fundamental science and industrial applications. In 1998, she transitioned to academia, joining Kanazawa University as a lecturer, and soon after expanded her international outlook through a visiting scholar appointment in Professor Henry White’s laboratory at the University of Utah from 2000 to 2001. Returning to Japan, she joined the University of Fukui, where she advanced steadily from lecturer to associate professor, and in 2017 she was promoted to full professor of Applied Physics. In recognition of her long-standing contributions, she was named Honorary Professor of the University of Fukui in 2023. Throughout her academic career, Professor Chen has distinguished herself not only through her pioneering research but also through her commitment to education, having supervised thirty-seven Ph.D. students from Japan, China, Thailand, and other countries, many of whom have gone on to make significant contributions of their own. Her research has consistently focused on the fundamentals of electrochemical science, with a particular emphasis on interfacial phenomena, and her work has advanced understanding in areas that connect physical chemistry and materials science. Beyond her laboratory, she has been an active and respected member of numerous professional organizations, including the American Chemical Society, the Royal Society of Chemistry, the International Society of Electrochemistry, and several major Japanese chemical societies, reflecting her integration into the global scientific community. With decades of experience as a researcher, mentor, and international collaborator, Professor Chen continues to be recognized as an influential figure whose career exemplifies the pursuit of fundamental knowledge while fostering scientific exchange across cultures and disciplines.

Profile: Google Scholar | Scopus | ORCID 

Featured Publications

1. Aoki K., Mukoyama I., Chen J., Competition between polymerization and dissolution of poly (3-methylthiophene) films. Russian Journal of Electrochemistry, 2004, 40(3), 280–285.

2. Aoki K.J., Chen J., Liu Y., Jia B., Peak potential shift of fast cyclic voltammograms owing to capacitance of redox reactions. Journal of Electroanalytical Chemistry, 2020, 856, 113609.

3. Hou Y., Aoki K.J., Chen J., Nishiumi T., Solvent variables controlling electric double layer capacitance at the metal–solution interface. The Journal of Physical Chemistry C, 2014, 118(19), 10153–10158.

4. Aoki K., Chen J., Ke Q., Armes S.P., Randall D.P., Redox reactions of polyaniline-coated latex suspensions. Langmuir, 2003, 19(13), 5511–5516.

5. Tasakorn P., Chen J., Aoki K., Voltammetry of a single oil droplet on a large electrode. Journal of Electroanalytical Chemistry, 2002, 533(1–2), 119–126.

6. Aoki K., Tasakorn P., Chen J., Electrode reactions at sub-micron oil | water | electrode interfaces. Journal of Electroanalytical Chemistry, 2003, 542, 51–60.

7. Aoki K.J., Chen J., Zeng X., Wang Z., Decrease in the double layer capacitance by faradaic current. RSC Advances, 2017, 7(36), 22501–22509.

8. Aoki K., Chen J., Statistical thermodynamics of multi-nuclear linear complexes with mixed valence states by means of correlated-walk. Journal of Electroanalytical Chemistry, 1995, 380, 35–45.

9. Hou Y., Aoki K.J., Chen J., Nishiumi T., Invariance of double layer capacitance to polarized potential in halide solutions. Universal Journal of Chemistry, 2013, 1(4), 162–169.

10. Rijiravanich P., Aoki K., Chen J., Surareungchai W., Somasundrum M., Micro-cylinder biosensors for phenol and catechol based on layer-by-layer immobilization of tyrosinase on latex particles: Theory and experiment. Journal of Electroanalytical Chemistry, 2006, 589(2), 249–258.

11. Chen J., Somasundrum M., Steady-state current at oil | water | electrode interfaces using ion-insoluble polydimethylsiloxane droplets. Journal of Electroanalytical Chemistry, 2004, 572, 153–159.