Marius Zaharia | Polymer Chemistry | Best Researcher Award

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Dr. Marius Zaharia | Polymer Chemistry | Best Researcher Award

Reseacher | Institute of Macromolecular Chemistry Petru Poni | Romania

A distinguished figure in polymer science and nanomaterials research, this scholar has made notable contributions to the development of advanced macromolecular systems for sustainable and biomedical applications. With over 43 peer-reviewed publications, 508 citations, and an h-index of 13, their research demonstrates a strong global impact and consistent academic excellence. The work focuses on the synthesis and functionalization of environmentally friendly and multifunctional polymeric materials, including thermoresponsive copolymers, nanocomposites, and hydrogel-based systems. Pioneering studies on Chitosan-graft-Poly(N-isopropylacrylamide) hybrid copolymers, alginate-based hydrogels, and green synthesis of metal nanoparticles have significantly advanced understanding in biocompatibility, controlled drug delivery, and tissue engineering. Collaborating extensively with over 100 researchers worldwide, this scientist has contributed to interdisciplinary efforts bridging chemistry, materials science, and biotechnology. Recent investigations into the in situ synthesis of gold nanoparticles mediated by thermoresponsive copolymers and the formation of nanocrystalline hydroxyapatite hydrogels for bone regeneration exemplify their innovative and application-driven research approach. Through a commitment to sustainable design, material innovation, and collaborative science, this researcher continues to influence the global landscape of macromolecular chemistry and contribute to advancements addressing environmental and healthcare challenges.

Profiles : Google Scholar | Scopus | ORCID | ResearchGate

Featured Publications

1. Bucatariu, F., Ghiorghita, C. A., Zaharia, M. M., Schwarz, S., Simon, F., & Mihai, M. (2020). Removal and separation of heavy metal ions from multicomponent simulated waters using silica/polyethyleneimine composite microparticles. ACS Applied Materials & Interfaces, 12(33), 37585–37596. [Cited by: 59]

2. Ghiorghita, C. A., Borchert, K. B. L., Vasiliu, A. L., Zaharia, M. M., Schwarz, D., & others. (2020). Porous thiourea-grafted-chitosan hydrogels: Synthesis and sorption of toxic metal ions from contaminated waters. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 607, 125504. [Cited by: 56]

3. Racovita, S., Trofin, M. A., Loghin, D. F., Zaharia, M. M., Bucatariu, F., Mihai, M., & others. (2021). Polybetaines in biomedical applications. International Journal of Molecular Sciences, 22(17), 9321. [Cited by: 53]

4. Roman, T., Pui, A., Lukacs, A. V., Cimpoesu, N., Lupescu, S., Borhan, A. I., & others. (2019). Structural changes of cerium doped copper ferrites during sintering process and magneto-electrical properties assessment. Ceramics International, 45(14), 17243–17251. [Cited by: 35]

5. Bucatariu, F., Schwarz, D., Zaharia, M., Steinbach, C., Ghiorghita, C. A., & others. (2020). Nanostructured polymer composites for selective heavy metal ion sorption. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 603, 125211. [Cited by: 33]

Dr. Marius Mihai Zaharia’s work contributes to global innovation by developing sustainable polymeric and nanocomposite materials that address critical challenges in environmental remediation and biomedical engineering. His research fosters advancements in eco-friendly technologies, promotes resource efficiency, and supports the transition toward a cleaner and more sustainable industrial future.

Ravindra Kumar | Organic Chemistry | Excellence in Research Award

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Dr. Ravindra Kumar | Organic Chemistry | Excellence in Research Award

Principal Scientist | CSIR-Central Drug Research Institute | India

Dr. Ravindra Kumar is a distinguished researcher whose scientific contributions have significantly advanced the fields of synthetic organic chemistry and medicinal chemistry. With 38 published documents, 673 citations, and an h-index of 14, his work demonstrates consistent research productivity, scientific rigor, and growing global impact. His research primarily focuses on the development of novel organic transformations, design of bioactive molecules, and mechanistic exploration of complex reactions that bridge fundamental chemistry with biomedical applications. Dr. Kumar has made notable advancements in areas such as chemo and regio-selective dual-functionalization of arenes, aromaticity modulation, and construction of multifunctional aromatic compounds through innovative dearomatization scission–aromatization strategies. His recent publications in highly reputed journals, including Chemical Communications and the European Journal of Medicinal Chemistry, highlight his pioneering efforts in creating 3,3-disubstituted oxindoles and quinoline carboxylic acid-based hybrids with promising anti-adipogenic and antidyslipidemic activities. Collaborating with over 78 co-authors across diverse research institutions, Dr. Kumar has fostered strong interdisciplinary partnerships that merge synthetic chemistry, catalysis, and pharmacological evaluation. His research is characterized by innovation and translational potential, contributing not only to the scientific community but also to the development of therapeutically relevant compounds addressing metabolic and lifestyle-related disorders. Through his sustained scholarly excellence and collaborative approach, Dr. Ravindra Kumar continues to contribute meaningfully to global efforts in drug discovery, molecular synthesis, and sustainable organic methodologies, reinforcing the vital role of chemical research in advancing health, innovation, and societal progress.

Profiles : Scopus | ORCID | ResearchGate | LinkedIn

Featured Publications

  1. Kumar, R., et al. (2025). Dearomatization–scission–aromatization of anilines: En route to synthesis of 3,3-disubstituted oxindoles with a wide range of heteroatom nucleophiles. Chemical Communications.

  2. Kumar, R., et al. (2025). Chemo- and regio-selective dual-functionalization of arenes: Synthesis of multi-functional aromatics via aromaticity destruction–reconstruction process. [Journal name not specified — likely a review journal]. Citations: 1

  3. Kumar, R., et al. (2025). Design, synthesis, and biological evaluation of novel quinoline carboxylic acid-based styryl/alkyne hybrid molecule as a potent anti-adipogenic and antidyslipidemic agent via activation of Wnt/β-catenin pathway. European Journal of Medicinal Chemistry.  Citations: 1

Dr. Ravindra Kumar’s research advances the frontiers of synthetic and medicinal chemistry through the design of novel organic molecules and innovative reaction mechanisms. His work fosters the development of therapeutically significant compounds, driving progress in drug discovery, sustainable synthesis, and global healthcare innovation.

 

Shraddha Yadav | Green Chemistry | Women Researcher Award

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Dr. Shraddha Yadav | Green Chemistry | Women Researcher Award

Postdoctoral Fellow |Indian Institute of Technology Bombay | India

Dr. Shraddha Yadav is a distinguished researcher known for her impactful work in environmental catalysis, electrochemical remediation, and sustainable materials engineering. With 21 publications, 263 citations, and an h-index of 8, her research demonstrates strong scientific productivity and interdisciplinary significance. Her recent studies, published in high-impact journals such as Chemical Engineering Journal and Electrochimica Acta, explore advanced nanostructured catalyst systems, including Fe₃C-infused hydrochar-based cathodes and MIL-53(Fe)-derived Fe₃O₄ MWCNT composites, for the efficient degradation of persistent organic pollutants. By integrating green chemistry, nanomaterial synthesis, and electrochemical process optimization, she contributes to developing sustainable wastewater treatment and pollution control technologies. Her comparative analyses of bio-electro-Fenton and bio-electro-peroxone systems provide key insights into improving catalytic efficiency and environmental compatibility. Through collaborations with more than 25 co-authors from diverse scientific backgrounds, she advances interdisciplinary approaches to address global environmental challenges. Collectively, her work supports the advancement of catalytic and electrochemical pathways for pollutant degradation, aligning with sustainable development goals on clean water, responsible production, and climate action while reinforcing the role of scientific innovation in promoting a cleaner, greener future.

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

Featured Publications

Farzaneh Bayat | Polymer Chemistry | Best Researcher Award

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Assoc. Prof. Dr. Farzaneh Bayat | Polymer Chemistry | Best Researcher Award

Associate Professor | Azarbaijan Shahid Madani University | Iran

Dr. Farzaneh Bayat is a distinguished researcher whose work has made significant contributions to materials chemistry and nanoscience, particularly in plasmonic nanomaterials, photocatalysis, and polymer-based nanocomposites. With 37 published documents, 248 citations, and an h-index of 10, her research record reflects consistent innovation and academic influence. Her recent studies emphasize the design and functionalization of nanostructured materials for applications in environmental remediation, sensing technologies, and energy-efficient catalysis. Notably, her 2025 publications in leading journals such as Microchemical Journal and Journal of Alloys and Compounds explore plasmonic core–shell nanoparticles and 2D semiconductor frameworks for enhanced photocatalytic and detection performance. Her investigations into polymer–nanocomposite systems and selenium-based optical materials reveal interdisciplinary expertise bridging chemistry, materials science, and nanotechnology. Dr. Bayat’s work stands out for its dual emphasis on fundamental understanding and practical solutions, addressing challenges in pollution control, sustainable materials, and nanostructure design. With collaborations involving over 70 co-authors globally, she actively promotes scientific exchange and multidisciplinary innovation. Through her pioneering contributions to plasmon-enhanced photocatalysis, hybrid nanocomposite engineering, and green nanotechnology, Dr. Bayat continues to advance material synthesis and characterization methods that support sustainability and technological progress. Her dedication to impactful research and innovation positions her as a recognized figure in functional materials and applied nanotechnology, shaping the future of global nanoscience

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

Dr. Farzaneh Bayat’s research bridges nanomaterials, photonics, and biosensing technologies, driving innovations in renewable energy, early disease detection, and environmental sustainability. Her work enhances global scientific understanding and fosters practical solutions that advance healthcare and clean energy industries.

Yasmina Khane | Nanotechnology | Best Researcher Award

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Assoc. Prof. Dr. Yasmina Khane | Nanotechnology | Best Researcher Award

Associate Professor | University of Ghardaia | Algeria

Dr. Yasmina Khane, affiliated with the Université de Ghardaia in Algeria, is an accomplished researcher whose work bridges the disciplines of materials chemistry, environmental science, and nanotechnology. Her research primarily explores the synthesis, characterization, and functional applications of nanostructured materials particularly metal and metal oxide nanoparticles in catalysis, environmental remediation, and sustainable energy systems.Dr. Khane’s investigations have made notable contributions to green nanotechnology, especially through the development of phyto-synthesized nanoparticles using plant extracts as eco-friendly reducing agents. Her recent study on silver nanoparticles synthesized via Cotula cinerea extract highlights her commitment to sustainable materials science. This work demonstrated the potential of bio-fabricated nanomaterials in enhancing salt tolerance in wheat (Triticum durum), emphasizing agricultural resilience and plant-environment interactions under stress conditions.A central theme in her research is photocatalysis the design and optimization of semiconductor-based catalysts for pollutant degradation and energy-related reactions. Dr. Khane has synthesized and investigated photocatalytic systems such as ZnO-impregnated biomaterials and Cu₂NiSnS₄ thin films, which have shown remarkable efficiency in degrading organic contaminants like dyes and pharmaceutical residues. Her publications in journals such as Scientific Reports, Inorganic Chemistry Communications, and Reaction Kinetics, Mechanisms and Catalysis reflect her depth in reaction kinetics, surface chemistry, and materials modification.With over 657 citations, 34 publications, and an h-index of 12, Dr. Khane has established herself as an influential figure in applied chemical research. Her interdisciplinary collaborations with over 150 co-authors underscore a strong international research network. She continually integrates chemistry, physics, and biology to advance eco-conscious technologies for water purification, soil protection, and renewable energy conversion.Overall, Dr. Khane’s scientific portfolio demonstrates a commitment to environmental sustainability through the innovative use of nanostructured catalysts and green synthesis methods. Her work contributes meaningfully to the global pursuit of cleaner technologies, reflecting the synergy between nanoscience, catalysis, and environmental protection.

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

Featured Publications

  1. Fenniche, F., Khane, Y., Hafsi, Z., Farhat, M., Aouf, D., & Alarbi, F. (2025). Photo catalytic degradation of Coomassie Brilliant Blue using a ternary Polyaniline/Fe₂O₃/Graphene nanocomposite under visible light. Sebha University Conference Proceedings, 103–109.

  2. Daoud, M., Khane, Y., Aouf, D., Benturki, O., Girods, P., Rogaume, Y., & Fontana, S. (2025). Efficient removal of malachite green using modified Algerian date palm spikelet: Characterization, design of experiment (Box–Behnken), density functional theory analysis. Reaction Kinetics, Mechanisms and Catalysis, 1–27.

  3. Kesbi, B., Salhi, N., Khane, Y., Albukhaty, S., Addad, A., Abideen, Z., Alsufyani, H., … (2025). Potential effect of phyto-synthesized silver nanoparticles using Cotula cinerea Del raw extract on salt tolerance of wheat seeds (Triticum durum desf., Boussellam variety). Scientific Reports, 15(1), 28061. Citations: 1

  4. Farhat, M., Al Madani, M. A., Abdullah, T., Embaya, M., Saeed, A., Saleh, A., … (2025). Evaluation of the physical properties of local wheat husk ash and its effects on the compressive strength of hardened cement paste. Discover Chemistry, 2(1), 89.

  5. Nezzari, A., Medina, S., Khane, Y., Boublenza, H., Guezzoul, M., Zoukel, A., … (2025). Synthesis, properties, and photocatalytic degradation of Brilliant Green dye using Cu₂NiSnS₄ thin films under ultraviolet irradiation. Inorganic Chemistry Communications, 174, 114021. Citations: 3

Dr. Yasmina Khane’s research advances sustainable nanotechnology through eco-friendly materials and photocatalysis, offering innovative solutions for environmental purification, agricultural resilience, and renewable energy. Her work bridges science and society, driving global progress toward a cleaner and greener future.

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.