Tag: Chemistry Recognition Award

Kiranmai Nayani | Chemistry | Research Excellence Award

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Assist. Prof. Dr. Kiranmai Nayani | Chemistry | Research Excellence Award

CSIR-Indian Institute of Chemical Technology (IICT) | India

Dr. Kiranmai Nayani is an accomplished synthetic organic chemist with extensive research experience in peptide chemistry, asymmetric catalysis, natural product synthesis, and process development for pharmaceutically relevant molecules. She earned her Ph.D. in Synthetic Organic Chemistry from CSIR–IICT, Hyderabad (2005–2010) under the supervision of Dr. Srivari Chandrasekhar, receiving the prestigious Eli Lilly Asia Outstanding Thesis Award (2010). She holds an M.Sc. in Organic Chemistry with Gold Medal from NIT Warangal, a B.Ed. (Institute Topper), and a B.Sc. with Distinction. Dr. Kiranmai currently serves as Senior Scientist at CSIR-IICT, following earlier roles including Project Scientist-III, WOS-A Principal Investigator (DST), Senior Research Associate (CSIR Pool Scientist), Postdoctoral Fellow at Université Paris Descartes (France), and industry positions at Chemveda Life Sciences, Sai Advantium Pharma, and Dr. Reddy’s Laboratories. Her research contributions span organic synthesis, asymmetric dearomatization, foldamers, peptidomimetics, functional peptides, radical cascade reactions, Piancatelli rearrangements, and late-stage functionalization. She has significantly contributed to the synthesis of antimicrobial peptides, including scalable routes to TLR7/8 agonists used as adjuvants in Covaxin, the antiviral drug Nirmatrelvir, and peptide drugs like Dalargin and Plitidepsin.

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Featured Publications

Rasha Abbas | Chemistry | Research Excellence Award

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Assist. Prof. Dr. Rasha Abbas | Chemistry | Research Excellence Award

Al –Baha University | Sudan

Dr. Rasha Khalid Abbas Ibrahim is an accomplished biochemist and academic with extensive experience in teaching, research, and scientific leadership across Sudan and the Kingdom of Saudi Arabia. She holds a Bachelor’s and Master’s degree in Biochemistry and Food Science from the University of Khartoum, followed by a Ph.D. in Biochemistry from the University of Juba, where her doctoral research focused on medicinal and aromatic plants, examining the influence of soil, storage, and maturity on the chemical and toxicological properties of Hibiscus sabdariffa using advanced HPLC methodologies. Her master’s work similarly contributed to understanding the essential oil chemistry of Cymbopogon proximus under varying environmental conditions. Dr. Ibrahim has built a strong research profile with more than 16 completed projects, 2 ongoing projects, and over 40 supervised student studies across biochemistry and food science. She has authored numerous peer-reviewed publications addressing antimicrobial activity, phytochemical characterization, nutritional analysis, and the biochemical properties of medicinal plants and natural products. Her studies on Moringa oleifera, Roselle, Lepidium sativum, flaxseed oil, and essential oils have contributed valuable insights to food safety, public health, and the therapeutic potential of bioactive compounds. Several of her works appear in reputable journals such as Applied Chemistry, JPAM, International Journal of Current Research, and Journal of Microbial & Biochemical Technology. Alongside her research contributions, Dr. Ibrahim has served in key academic roles, including Lecturer and Department Head at the University of Juba, and currently as Assistant Professor at Al-Baha University. She has participated actively in curriculum development, quality assurance initiatives, and numerous institutional committees. Her professional engagement is further reflected in her memberships in the Biochemistry Society, Environmental Association, Medicinal and Aromatic Plants Society, and Food Science Society. She has attended over 40 conferences and seminars, presented research internationally, and received recognition for her scientific presentations. Dr. Ibrahim’s work reflects a sustained commitment to advancing biochemical research, enhancing educational quality, and applying scientific knowledge to improve health, nutrition, and environmental sustainability.

Profile: Scopus

Featured Publication

  1. Chemical and Nutritional Studies of Neem Plant Leaves Planted in Kingdom of Saudi Arabia and Their Importance in Combating Oxidative Stress in Experimental Animals. (2025). Biomedical and Pharmacology Journal.

 

Wang Haiyan | Chemistry | Research Excellence Award

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Assoc. Prof. Dr. Wang Haiyan | Chemistry | Research Excellence Award

Zhejiang Normal University | China

Assoc. Prof. Dr. Wang Haiyan is a member of the Communist Party of China, an Associate Professor, and a Master’s Supervisor at Zhejiang Normal University. He was selected to the Clarivate Analytics Top 2% Global Scientists list for 2022–2025. He earned his Ph.D. in Chemistry from Zhejiang University under the supervision of Prof. Yong Wang (National Outstanding Young Scientist). During his doctoral training, he also conducted joint research at the Institute of Metal Research, Chinese Academy of Sciences, guided by Researcher Feng Li (National Outstanding Young Scientist). Dr. Wang’s research lies at the intersection of inorganic nanomaterial synthesis and advanced energy storage and conversion systems, including electrocatalysis, hybrid capacitors, and energy-relevant nanostructures. He has authored more than 70 SCI-indexed publications in leading journals such as Nature Communications, Journal of the American Chemical Society, Advanced Energy Materials, Advanced Functional Materials, Nano Energy, ACS Catalysis, and Applied Catalysis B: Environmental. Among his publications, four have been recognized as ESI Hot Papers and eleven as ESI Highly Cited Papers, reflecting strong global influence. His work currently holds an h-index of 38. Dr. Wang has led nine research projects supported by national and provincial funding bodies, including the National Natural Science Foundation of China and the China Postdoctoral Science Foundation. His research contributions have been acknowledged through multiple honors, including a First Prize in the China Association of Inventions Entrepreneurship Innovation Award. Dr. Wang is also highly active in academic mentorship and innovation education. His students have earned numerous prestigious awards, including the Gold Medal at the China International College Student Innovation Competition and top honors in provincial “Challenge Cup” and “Internet+” competitions. He has been recognized as an Outstanding Innovation and Entrepreneurship Mentor and currently serves as Vice President of Technology for a carbon-neutrality-focused enterprise. Additionally, he serves on multiple editorial and technical committees and reviews for leading international journals.

Profile: Scopus

Featured Publications

  1. (2026). In situ manipulation of interfacial water in Ni-Co₃O₄ for efficient neutral nitrate electroreduction to ammonia. Applied Catalysis B: Environmental.

  2. (2025). Reciprocal enhancement of iodine and manganese redox kinetics towards high-performance rechargeable zinc-iodine-manganese hybrid batteries. Journal of Energy Chemistry.

  3. (2025). Enhanced energy storage density and efficiency in A/B-site-engineered silver niobate ceramics. Ceramics International.

  4. Electrocatalysts in zinc-iodine batteries: Theoretical insights and material design..

  5. Recent progress in the inhibition of metal dendrites in sodium/potassium ion batteries..

 

Weidong Wen | Chemistry | Best Researcher Award

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Dr. Weidong Wen | Chemistry | Best Researcher Award

Anhui University | China

Dr. Weidong Wen is an emerging materials scientist whose research focuses on electrocatalytic nitrate reduction to ammonia, plasma-assisted nanoarray catalyst fabrication, and in-situ electrochemical spectroscopy. His work addresses a globally significant scientific challenge: developing sustainable, energy-efficient pathways for ammonia synthesis while contributing to nitrate pollution mitigation. Dr. Wen has established a strong research track record at an early career stage, with multiple publications in high-impact journals such as Advanced Functional Materials and Angewandte Chemie International Edition, where he has served as both first and contributing author. His studies on metastable copper phases, electrolyte microenvironment modulation, and atomically dispersed active sites have expanded fundamental understanding of catalytic mechanisms and enabled the design of high-performance electrocatalysts for selective ammonia production. Collectively, his publications have garnered strong visibility in the materials and electrochemistry communities, reflecting the relevance and novelty of his contributions. Dr. Wen’s academic training includes rigorous research experience across institutions in China and Germany, where he collaborated with interdisciplinary teams and contributed to joint Ph.D. research efforts in solid-state physics and materials engineering. These collaborations have strengthened his expertise in advanced characterization techniques and provided an international dimension to his scientific development. His work has also resulted in impactful insights with potential societal benefits, including pathways to cleaner fertilizer production, reduction of industrial energy consumption, and environmental remediation through nitrate conversion technologies. Throughout his academic career, Dr. Wen has earned multiple institutional scholarships in recognition of his academic excellence, research productivity, and commitment to scientific advancement. With a growing publication record, strong methodological skills, and a clear focus on addressing environmentally relevant challenges, Dr. Wen is positioned to make sustained and influential contributions to materials science, catalysis, and sustainable chemical engineering. His trajectory reflects a promising future as a researcher capable of driving innovations with both scientific and societal relevance.

Profile: Scopus

Featured Publications

  1. Wen, W., Yan, P., Sun, W., Zhou, Y., & Yu, X.-Y. (2023). Metastable phase Cu with optimized local electronic state for efficient electrocatalytic production of ammonia from nitrate. Advanced Functional Materials, 33, 2212236.
  2. Wen, W., Fang, S., Zhou, Y., Zhao, Y., Li, P., & Yu, X.-Y. (2024). Modulating the electrolyte microenvironment in electrical double layer for boosting electrocatalytic nitrate reduction to ammonia. Angewandte Chemie International Edition, 63, e202408382.
  3. Wang, Y., Zhang, W., Wen, W., Yu, X., Du, Y., Ni, K., Zhu, Y., & Zhu, M. (2023). Atomically dispersed unsaturated Cu-N3 sites on high-curvature hierarchically porous carbon nanotube for synergistic enhanced nitrate electroreduction to ammonia. Advanced Functional Materials, 33, 2302651.

Fehmida Rashied | Chemistry | Best Researcher Award

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Ms. Fehmida Rashied | Chemistry | Best Researcher Award

NIT Srinagar, India

Ms. Fehmida Rashied is a promising researcher in the field of Analytical and Organic Chemistry, currently associated with the Department of Chemistry at the National Institute of Technology (NIT) Srinagar, India. She holds a Master’s degree in Chemistry from the University of Kashmir (2022) and a Bachelor of Science degree from the same institution, with a strong academic foundation in chromatographic and spectroscopic techniques. Throughout her academic and research journey, she has developed extensive expertise in analytical instrumentation, including HPLC, GC, LC-MS/MS, GC-MS/MS, and ICP-MS/MS, with a focus on pesticide residue analysis, natural product extraction, and method validation for heavy metal detection in environmental and biological samples. Her professional experience includes hands-on training at premier research centers such as SKUAST-Kashmir and the Geological Survey of India, where she deepened her understanding of chromatographic and spectroscopic applications in food and environmental chemistry. Ms. Rashied’s research interests encompass chromatography, spectroscopy, mass spectrometry, organic chemistry, toxicology, and the development of natural product-based antimicrobial polymer composites. She has contributed to impactful publications in reputed journals such as Fitoterapia and Journal of Biomedical Chromatography, reflecting her analytical proficiency and dedication to scientific advancement. Her research skills span sample preparation, extraction, quantification, and validation, demonstrating precision and reliability in chemical analysis. She has presented her work at multiple national and international conferences, showcasing her commitment to academic exchange and professional growth. Recognized for her enthusiasm, creativity, and analytical rigor, she continues to enhance her expertise in modern analytical technologies. With growing scientific recognition and a drive for innovation, Ms. Fehmida Rashied aspires to advance sustainable analytical methods for food safety, natural product research, and environmental protection, contributing significantly to the global field of applied and analytical chemistry.

Profile: Scopus

Featured Publication

  1. Dudwal, R., Jakhar, B. L., Pathan, A. R. K., Kataria, A., Jan, I., Kakralya, B. L., Dhaka, S. R., Hussain, A., Bana, J. K., Babu, S. R., Yadav, A. K., & Rashied, F. (2023). The effect of different decontamination processes on the residues of Fipronil and its metabolites in chilli fruits (Capsicum annum). Journal of Biomedical Chromatography.

  2. Yatoo, G. N., Bhat, B. A., Zubaid-ul-Khazir, M., Asif, M., Bhat, S. A., Gulzar, F., Rashied, F., Wani, A. H., Ahmed, I., Zargar, S. M., Mir, M. A., & Banday, J. A. (2024). Network pharmacology and experimental insights into STAT3 inhibition by novel isoxazole derivatives of piperic acid in triple negative breast cancer. Fitoterapia.

  3. Jan, I., Rashied, F., Malik, N. A., Mukhtar, M., Dudwal, R., & Kataria, A. (2024). Detection of pesticide residues in fruits and vegetables involving different chromatographic techniques (LC–MS/MS, GC–MS/MS, GC, and HPLC). Journal of Biomedical Chromatography.

Ms. Fehmida Rashied’s work advances scientific and societal progress through the development of reliable analytical methods for detecting pesticide residues and heavy metals, ensuring food and environmental safety. Her research bridges chemistry and public health, contributing to sustainable agricultural practices and global innovation in analytical and environmental chemistry.

Tsomene Doungmo Stany Lionel | Organic Chemistry | Best Researcher Award

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Mr. Tsomene Doungmo Stany Lionel | Organic Chemistry | Best Researcher Award

University of Yaoundé 1, Cameroon

Mr. Tsomene Doungmo Stany Lionel, born on 15 May 2000 in Bertoua, Cameroon, is a dedicated researcher specializing in organic chemistry with a focus on sustainable development and bioresource valorization. He earned his Bachelor’s degree in Chemistry from the University of Yaounde 1 in 2021 and completed his Master’s degree in Organic Chemistry under the supervision of Dr. Angelique Nicolas Messi in 2024. His professional experience includes pedagogic animation at Groupe ESTAS since 2021, and hands-on industrial training at ETS ALLIANCE Metal, where he gained practical knowledge in factory organization, maintenance, and administrative management. Mr. Lionel’s research interests encompass medicinal plant valorization, molecular modeling, pharmaceutical formulations, and structural biology, with a strong emphasis on interdisciplinary and sustainable approaches. He has actively participated in numerous national and international conferences, including the YaBiNaPa 4th Network Meeting (2023), CONFCAYS Conference (2023), and hands-on training in Structural Biology at the International Livestock Research Institute (ILRI), Nairobi, Kenya (2025). His research skills are extensive, covering computational tools such as UCSF Chimera, Maestro, Discovery Studio, ChemMaster, Pymol, MestRenova, Autodock Vina, and ChemDraw, alongside proficiency in Microsoft Office, and online professional development through Elsevier and Schrödinger courses in grant writing, literature search, molecular modeling, and pharmaceutical research. Recognized for his academic commitment and professional engagement, he has received certifications for advanced research skills and actively contributes to community-focused scientific initiatives. Mr. Lionel’s awards and honors reflect his growing impact in organic chemistry and sustainable development. With strong technical expertise, international exposure, and a commitment to scientific advancement, he is positioned to lead high-impact research, expand global collaborations, and mentor emerging scientists, thereby making significant contributions to both the academic community and societal development worldwide.

Profile: ORCID

Featured Publications

  1. Mbeket, S. B. N., Doungmo, S. L. T., & Nicolas, M. A. (2025). Computational insights into C–O–C-type biflavonoids as multi-target inhibitors of ERα, PR, EGFR, and mTOR in breast cancer therapy. Computational and Structural Biotechnology Reports. Advance online publication.

Mr. Tsomene Doungmo Stany Lionel’s work in organic chemistry and sustainable bioresource valorization advances scientific knowledge, promotes environmentally responsible industrial practices, and supports innovative solutions for global health and development challenges. His research bridges fundamental science with practical applications, fostering societal and industrial impact worldwide.

Yuvraj Patil | Organic and Materials Chemistry | Best Researcher Award

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Assist. Prof. Dr. Yuvraj Patil | Organic and Materials Chemistry | Best Researcher Award

Chandigarh University, Punjab, India

Assist. Prof. Dr. Yuvraj Patil is an Assistant Professor at Chandigarh University, Punjab, with a Ph.D. in Organic Chemistry from IIT Indore (2018), where he researched near-infrared absorbing diketopyrrolopyrroles under the supervision of Prof. Rajneesh Misra. He also holds an M.Sc. in Organic Chemistry from Shivaji University and a B.Sc. in Chemistry from Shrimant Babasaheb Deshmukh Mahavidyalaya. Dr. Patil has over four years of international postdoctoral experience in the USA, France, Japan, Taiwan, and India, contributing to projects on COF materials for batteries, chiral organic RTP derivatives for OLEDs, and inorganic semiconducting materials from organometallic precursors for solar cells. His research interests include multistep organic synthesis, π-conjugated molecules, functional molecular dyes (DPPs, Aza-BODIPYs), organic photonics and electronics, supramolecular and organometallic chemistry, quantum dots, semiconducting materials, and electrochemistry. He possesses advanced skills in C–C coupling reactions, Schlenk-line techniques, chromatography, spectroscopy (NMR, MS, UV–Vis), crystallization, electrochemical studies, and computational chemistry (DFT, TD-DFT). Dr. Patil has authored 31 peer-reviewed publications, including 22 as first author, in high-impact journals such as Angew. Chem. Int. Ed., Adv. Funct. Mater., Chem. Rec., and J. Mater. Chem. A, with over 870 citations, an h-index of 19, and has filed a U.S. patent on nanoparticles incorporating quantum dots. His awards and recognitions include “Very Important Paper” and “Hot Paper” honors in Angew. Chem., invited cover designs, and invitations to present at international conferences and webinars. He has mentored four Master’s and three Ph.D. students and contributed extensively to undergraduate teaching at IIT Indore. With demonstrated leadership, global research exposure, and strong publication record, Dr. Patil is poised to advance high-impact research in organic and inorganic chemistry, expand international collaborations, participate in top-tier journal publications and keynote forums, and mentor the next generation of scientists, fostering innovation and excellence in optoelectronic materials and related fields.

Profiles: Scopus | ORCID | Google Scholar | LinkedIn

Featured Publications

  1. Jadhav, T., Dhokale, B., Patil, Y., Mobin, S. M., & Misra, R. (2016). Multi-stimuli responsive donor–acceptor tetraphenylethylene substituted benzothiadiazoles. The Journal of Physical Chemistry C, 120(42), 24030–24040.
  2. Patil, Y., Misra, R., Keshtov, M. L., & Sharma, G. D. (2016). 1,1,4,4-Tetracyanobuta-1,3-diene substituted diketopyrrolopyrroles: An acceptor for solution processable organic bulk heterojunction solar cells. The Journal of Physical Chemistry C, 120(12), 6324–6335.
  3. Patil, Y., & Misra, R. (2019). Rational molecular design towards NIR absorption: Efficient diketopyrrolopyrrole derivatives for organic solar cells and photothermal therapy. Journal of Materials Chemistry C, 7(42), 13020–13031.
  4. Patil, Y., & Misra, R. (2018). Diketopyrrolopyrrole‐based and tetracyano‐bridged small molecules for bulk heterojunction organic solar cells. Chemistry–An Asian Journal, 13(3), 220–229.
  5. Patil, Y., Misra, R., Keshtov, M. L., & Sharma, G. D. (2017). Small molecule carbazole-based diketopyrrolopyrroles with tetracyanobutadiene acceptor unit as a non-fullerene acceptor for bulk heterojunction organic solar cells. Journal of Materials Chemistry A, 5(7), 3311–3319.

Assist. Prof. Dr. Yuvraj Patil’s work advances scientific understanding and technological innovation by developing cutting-edge solutions  His research bridges academia and industry, driving societal benefits through sustainable applications and fostering global innovation.

Yumiko Nakajima | Chemistry | Best Research Article Award

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Prof. Yumiko Nakajima | Chemistry | Best Research Article Award

Institute of Science Tokyo, Japan

Professor Yumiko Nakajima is a distinguished chemist and a leading figure in the field of organometallic catalysis and precision synthesis, currently serving as Professor at the Institute of Science Tokyo. She earned both her Bachelor of Science (2000) and Ph.D. (2005) from the Tokyo Institute of Technology, establishing a strong academic foundation in coordination and catalytic chemistry. Her professional journey reflects an impressive trajectory through top-tier institutions — beginning as a Postdoctoral Fellow (Humboldt Fellow) at RWTH Aachen University, Germany (2005–2007), followed by appointments as Special Postdoctoral Researcher at RIKEN (2007–2008), Assistant Professor at Kyoto University (2008–2013), and progressive leadership roles at the National Institute of Advanced Industrial Science and Technology (AIST) as Senior Researcher (2013–2017) and Team Leader (2017–2023) before assuming her current professorship in 2024. Her research interests lie in the design and mechanistic understanding of transition-metal-catalyzed reactions, sustainable synthetic processes, and chemical recycling, with a particular focus on Si–Cl bond activation, hydrogenolysis, and phosphorus compound transformation for green chemistry applications. Prof. Nakajima’s research skills span catalyst design, organometallic synthesis, reaction kinetics, and computational chemistry collaboration, enabling her to pioneer innovative catalytic systems that promote environmental sustainability. She has published extensively with 88 peer-reviewed papers, accumulating 2,503 citations and an h-index of 27, including influential works in JACS Au, Angewandte Chemie, ACS Catalysis, and Chemical Communications. Her outstanding contributions have earned her prestigious honors such as the Synthetic Organic Chemistry Award (Japan, 2024) and the KCS Award in Chemical Technology (2022). In conclusion, Professor Nakajima stands out as a visionary scientist whose research leadership, international collaborations, and commitment to advancing sustainable catalysis continue to shape the future of chemical innovation and inspire the next generation of researchers globally.

Profiles: Scopus | ORCID

Featured Publications

Naganawa, Y., Fujita, A., Sakamoto, K., Tanaka, S., Sato, K., & Nakajima, Y. (2023). Borane-protecting strategy for hydrosilylation of phosphorus-containing olefins. ACS Omega, 8, Article e2C07161.

Minami, Y., Matsuyama, N., Takeichi, Y., Watanabe, R., Mathew, S., & Nakajima, Y. (2023). Depolymerization of robust polyetheretherketone to regenerate monomer units using sulfur reagents. Communications Chemistry, 6(1), Article 8148.

Mathew, S., Naganawa, Y., Jiang, F., Wischert, R., Streiff, S., Metivier, P., & Nakajima, Y. (2023). One-pot synthesis of polymers containing P–C bonds in the main chain. Macromolecular Rapid Communications, 44(6), Article 2200921. https://doi.org/10.1002/marc.202200921

Kameo, H., Tanaka, Y., Shimoyama, Y., Izumi, D., Matsuzaka, H., Nakajima, Y., Lavedan, P., Le Gac, A., & Bourissou, D. (2023). Square-planar anionic Pt(0) complexes. Angewandte Chemie International Edition, 62(25), Article e202301509.

Tanaka, S., Nakajima, Y., Ogawa, A., Kuragano, T., Kon, Y., Tamura, M., Sato, K., & Coperet, C. (2022). DNP NMR spectroscopy enabled direct characterization of polystyrene-supported catalyst species for synthesis of glycidyl esters by transesterification. Chemical Science, 13(10), 274–282.

Professor Yumiko Nakajima’s pioneering research in organometallic catalysis and precision synthesis drives transformative advancements in green chemistry and sustainable manufacturing. Her innovative catalytic systems not only deepen scientific understanding of chemical transformations but also contribute to environmental preservation, industrial efficiency, and global progress toward cleaner, resource-efficient technologies.

Rahul Kadu | Chemistry | Best Researcher Award

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Assoc. Prof. Dr. Rahul Kadu | Chemistry | Best Researcher Award

MIT Art, Design and Technology University, Pune, India

Assoc. Prof. Dr. Rahul Kadu is a distinguished academic and researcher in the field of chemistry, currently serving as Associate Professor in the Department of Applied Science and Humanities, School of Engineering & Sciences, MIT Art, Design & Technology University, Pune, India. He earned his Ph.D. in Chemistry in 2015 from The Maharaja Sayajirao University of Baroda, Gujarat, under the guidance of Dr. Vinay Kumar Singh, with his doctoral research focusing on Metal Directed Self-Assembled Structures: Synthesis, Characterization, and Crystal Studies, and subsequently pursued a prestigious post-doctoral fellowship at IISER Bhopal (2015–2017) under Dr. Sangit Kumar, specializing in organoselenium chemistry and antioxidant research. His professional career spans more than a decade, including earlier roles as Assistant Professor and Board of Studies Member, where he contributed significantly to curriculum design and academic leadership. Dr. Kadu’s research interests lie in organometallic, supramolecular, material, and medicinal chemistry, with a focus on macrocyclic coordination compounds, catalytic processes, and potential therapeutic applications. He possesses strong research skills in synthetic chemistry, crystallography, supramolecular assembly, computational chemistry, and analytical techniques including NMR, HPLC, UV-visible spectroscopy, and single-crystal XRD. With over 20 indexed publications, 487 citations, and an h-index of 13, he has published extensively in high-impact Q1 and Q2 journals such as Journal of Organic Chemistry, Dalton Transactions, RSC Advances, and Journal of Molecular Structure. His excellence has been recognized through multiple honors, including the InSc Young Researcher Award (2023), UGC-JRF and SRF Fellowships, and Best Poster Awards at national conferences. As a Ph.

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

Featured Publications

  1. Jana, S., Verma, A., Kadu, R., & Kumar, S. (2017). Visible-light-induced oxidant and metal-free dehydrogenative cascade trifluoromethylation and oxidation of 1,6-enynes with water. Chemical Science, 8(9), 6633–6644.

  2. Kadu, R., Roy, H., & Singh, V. K. (2015). Diphenyltin (IV) dithiocarbamate macrocyclic scaffolds as potent apoptosis inducers for human cancer HEP 3B and IMR 32 cells: Synthesis, spectral characterization, density … Applied Organometallic Chemistry, 29(11), 746–755.

  3. Singh, V. K., Kadu, R., Roy, H., Raghavaiah, P., & Mobin, S. M. (2016). Phenolate based metallomacrocyclic xanthate complexes of Co II/Cu II and their exclusive deployment in [2:2] binuclear N,O-Schiff base macrocycle formation and in vitro … Dalton Transactions, 45(4), 1443–1454.

  4. Bhandary, S., Sirohiwal, A., Kadu, R., Kumar, S., & Chopra, D. (2018). Dispersion stabilized Se/Te··· π double chalcogen bonding synthons in in situ cryocrystallized divalent organochalcogen liquids. Crystal Growth & Design, 18(7), 3734–3739.

  5. Batabyal, M., Upadhyay, A., Kadu, R., Birudukota, N. C., Chopra, D., & Kumar, S. (2022). Tetravalent spiroselenurane catalysts: Intramolecular Se···N chalcogen bond-driven catalytic disproportionation of H2O2 to H2O and O2 and activation of I2 and NBS. Inorganic Chemistry, 61(23), 8729–8745.

Gui Chen | Inorganic Chemistry | Best Researcher Award

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Prof. Gui Chen | Inorganic Chemistry | Best Researcher Award

Dongguan University of Technology, China

Prof. Gui Chen is an accomplished scholar in chemistry with expertise in photocatalysis, molecular catalysis, and renewable energy conversion, whose career reflects a strong balance of academic excellence, impactful research, and international collaboration. He earned his Ph.D. in Chemistry from the City University of Hong Kong (2012) following a master’s (2007) and bachelor’s degree (2004) in Chemistry from Xiamen University, where he was directly recommended for graduate admission based on academic distinction. Professionally, he has built an impressive trajectory—serving as a Postdoctoral Fellow at City University of Hong Kong (2012–2014), an Associate Professor at the Fujian Institute of Research on the Structure of Matter (2014–2017), and since 2017, advancing to Associate Professor and Professor at Dongguan University of Technology, where he continues to lead pioneering research. His research interests lie in CO₂ reduction, small molecule activation, visible-light photocatalysis, and hybrid catalytic systems, contributing solutions to global challenges in clean energy and environmental sustainability. He possesses strong research skills in photocatalyst design, molecular synthesis, nanomaterials, graphene hybrid systems, and advanced spectroscopic/electrochemical characterization, reflected in 42 published documents indexed in Scopus, 1,820 citations, and an h-index of 24. His works are widely published in high-impact journals including Nature Catalysis, Journal of the American Chemical Society, Angewandte Chemie International Edition, and Chemical Society Reviews, often through collaborations with leading international scientists. Prof. Chen’s academic excellence has been recognized through various awards, invited talks, and collaborative research grants, which underscore his reputation as a leader in the field. In conclusion, Prof. Gui Chen’s distinguished academic background, extensive publication record, and sustained contributions to sustainable chemistry and clean energy research position him as a globally recognized expert whose future endeavors are expected to further advance innovation, mentorship, and impactful international collaborations.

Profile: Scopus

Featured Publications

  1. Zhang, L., Chen, L., Shi, H., Wei, Y., Chen, G., & Lau, T.-C. (2025). Efficient photocatalytic reduction of CO2 to formate by a molecular noble metal-free system. Science China Chemistry, 68, 152–156.

  2. Bharti, J., Chen, L., Guo, Z., Cheng, L., Wellauer, J., Wenger, O. S., von Wolff, N., Lau, K.-C., Lau, T.-C., Chen, G., & Robert, M. (2023). Visible-light-driven CO2 reduction with homobimetallic complexes: Cooperativity between metals and activation of different pathways. Journal of the American Chemical Society, 145, 25195–25202.

  3. Wei, Y., Chen, L., Chen, H., Cai, L., Tan, G., Qiu, Y., Xiang, Q., Chen, G., Lau, T.-C., & Robert, M. (2022). Highly efficient photocatalytic reduction of CO2 to CO by in situ formation of a hybrid catalytic system based on molecular iron quaterpyridine covalently linked to carbon nitride. Angewandte Chemie International Edition, 61, e202116832.

  4. Ma, B., Blanco, M., Calvillo, L., Chen, L., Chen, G., Lau, T.-C., Drazic, G., Bonin, J., Robert, M., & Granozzi, G. (2021). Hybridization of molecular and graphene materials for CO2 photocatalytic reduction with selectivity control. Journal of the American Chemical Society, 143, 8414–8425.

  5. Ma, B., Chen, G., Fave, C., Chen, L., Kuriki, R., Maeda, K., Ishitani, O., Lau, T.-C., Bonin, J., & Robert, M. (2020). Efficient visible-light driven CO2 reduction by a cobalt molecular catalyst covalently linked to mesoporous carbon nitride. Journal of the American Chemical Society, 142, 6188–6195.