Varsha Yadav | Material Sciences | Editorial Board Member

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Dr. Varsha Yadav | Material Sciences
| Editorial Board Member

Shri Venkateshwara University | India

Dr. Varsha Yadav is a materials science researcher whose work focuses on advanced functional materials, energy harvesting technologies, organic electronics, and optoelectronic device engineering. Her research portfolio includes significant contributions to piezoelectric materials, nanostructured composites, and organic semiconductors, with applications spanning sustainable energy systems, photodetectors, and next-generation electronic devices. Her published studies explore the development and optimization of piezoelectric energy harvesting mechanisms, bridging fundamental material behavior with real-world technological applications. In addition, her research on organic photodiodes—particularly devices based on PTB7-Th:PCBM photoactive layers—demonstrates her commitment to enhancing light-matter interactions, device efficiency, and material performance in flexible and low-cost optoelectronic systems. With more than twenty scientific publications and over two hundred citations, Dr. Yadav has established herself as a steadily growing researcher in emerging material platforms. She frequently collaborates with interdisciplinary teams, contributing to broader scientific advancements in nanomaterials, thin-film technologies, polymer-based devices, and renewable-energy materials. Her work emphasizes both theoretical understanding and experimental innovation, ensuring strong relevance to energy sustainability, sensor engineering, and modern device architecture. Through her continued research, Dr. Yadav aims to advance high-performance materials that support the development of efficient, lightweight, and eco-friendly electronic technologies for future applications.

Featured Publication

 Yadav, V. (2025). Organic photodiode based on PTB7-Th:PCBM as photoactive layer. Indian Journal of Physics.

Urosa Latief | Material science | Young Scientist Award

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Dr. Urosa Latief l Material science | Young Scientist Award

Indian Institute Of Technology Delhi| India

Dr. Urosa Latief’s research is centered on experimental condensed matter physics, with a strong emphasis on the synthesis, design, and functional optimization of advanced nanomaterials for sustainable energy and optoelectronic applications. Her work integrates nanotechnology with energy-efficient material development, focusing on environmentally friendly solid-state lighting (SSL) systems and flexible piezoelectric nanogenerators (PNGs) for energy harvesting. She has developed hybrid nanocomposites based on poly(vinylidene fluoride) integrated with functionalized multi-walled carbon nanotubes and barium titanate fillers to enhance piezoelectricity and output performance. In parallel, her studies on quantum dots and carbon-based nanostructures have led to significant advances in luminescent, multifunctional, and rare-earth-free phosphors for photonic and sensing applications. Through systematic material engineering, she has demonstrated the tunability of optical and electronic properties in ZnS and ZnO-based nanostructures, contributing to dual-mode sensors and high-efficiency light-emitting devices. Her research further explores nanocomposites for self-powered systems, integrating piezo-optical functionalities for next-generation wearable and flexible electronics. With several publications in reputed international journals and a strong interdisciplinary approach, her work contributes to the advancement of green energy technologies, nanophotonics, and smart material systems that bridge fundamental science with real-world applications.

Featured Publications

Latief, U., ul Islam, S., Khan, Z. M. S. H., & Khan, M. S. (2021). A facile green synthesis of functionalized carbon quantum dots as fluorescent probes for a highly selective and sensitive detection of Fe³⁺ ions. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 262, 120132. https://doi.org/10.1016/j.saa.2021.120132

Latief, U., Islam, S. U., Khan, Z., & Khan, M. S. (2022). Luminescent manganese/europium doped ZnS quantum dots: Tunable emission and their application as fluorescent sensor. Journal of Alloys and Compounds, 910, 164889. https://doi.org/10.1016/j.jallcom.2022.164889

Latief, U., Islam, S. U., & Khan, M. S. (2023). Rare-earth free solid-state fluorescent carbon-quantum dots: Multi-color emission and its application as optical dual-mode sensor. Journal of Alloys and Compounds, 941, 168985. https://doi.org/10.1016/j.jallcom.2023.168985

Islam, S. U., Latief, U., Ahmad, I., Khan, Z., Ali, J., & Khan, M. S. (2022). Novel NiO/ZnO/Fe₂O₃ white light-emitting phosphor: Facile synthesis, color-tunable photoluminescence and robust photocatalytic activity. Journal of Materials Science: Materials in Electronics, 33(29), 23137–23152. https://doi.org/10.1007/s10854-022-09079-8

Renu Mishra | Material Science | Women Researcher Award

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Ms. Renu Mishra | Material Science | Women Researcher Award

Banaras Hindu University | India

Ms. Renu Mishra is a dedicated researcher in the Department of Chemistry at Banaras Hindu University, where she is pursuing her Ph.D. under the supervision of Prof. Biplab Kumar Kuila. Her doctoral research focuses on the development of conjugated polymer frameworks for sensing and catalysis applications. She holds an M.Sc. in Chemistry with an outstanding and a B.Sc. in Physics, Chemistry, and Mathematics from the University of Allahabad. She also qualified for the All-India GATE examination and was a gold medalist in a state-level science exhibition. Her research interests span the synthesis of porous organic polymers, polymer-stabilized metal nanoparticles, and nanoclusters for catalytic and sensing applications. She is particularly engaged in heterogeneous catalysis, dip catalysis, and flow catalysis with significant work on photocatalytic hydrogen and hydrogen peroxide production, dye degradation, nitrophenol reduction, and electrochemical sensing of biological and environmental molecules. Her expertise also extends to nanomaterial synthesis, functionalization, and advanced characterization techniques such as NMR, HRMS, LC-MS, SEM, TEM, and XPS. She is skilled in scientific software like ChemDraw, SciFinder, MestReNova, and Origin, and has strong scientific writing and presentation skills. Ms. Mishra has published research articles in reputed journals such as Organic & Biomolecular Chemistry and Dalton Transactions, contributing to fields like visible-light-driven cross-coupling reactions and bimetallic nanoparticle-based catalysis. She has actively participated in national symposia, presenting her research and engaging with the scientific community. Known for her creativity, motivation, and collaborative skills, she balances independent research with mentoring junior researchers in laboratory techniques and safety practices. Her work highlights a commitment to sustainable material design, environmental remediation, and the advancement of polymer-supported catalysis for real-world applications.

Featured Publications

Anshuman, Laxmi, R., Mishra, R., & Kuila, B. K. (2025). Visible light driven C–N cross-coupling reactions catalysed by a conjugated polymer network. Organic & Biomolecular Chemistry.

Anshuman, Laxmi, R., Gupta, P., Mishra, R., Gupta, N., & Kuila, B. K. (2024). Ni-Pd bimetallic nanoparticles stabilized polymer membrane as an efficient dip-catalyst for oxidative coupling of aromatic amines to access symmetrical and unsymmetrical azo compounds. Dalton Transactions

Anshuman | Material Science | Young Scientist Award

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Mr. Anshuman | Material Science | Young Scientist Award

Banaras Hindu University | India

Mr. Anshuman is a motivated researcher in the Department of Chemistry, Institute of Science, Banaras Hindu University, where he is pursuing his PhD under the supervision of Prof. Biplab Kumar Kuila. His doctoral research focuses on the synthesis of porous organic polymers for catalytic applications, with an emphasis on polymer-stabilized metal nanoparticles and nanoclusters for heterogeneous and photocatalytic organic transformations. He holds a Master of Science in Organic Chemistry from the University of Allahabad, where he graduated with distinction, and a Bachelor of Science in Physics, Chemistry, and Mathematics from the same university. His research interests lie in nanostructured material design, polymer-supported catalysis, and transition metal chemistry for use in C–H activation, multicomponent reactions, and cross-coupling strategies. He also works on sustainable catalytic processes, including hydrogen and hydrogen peroxide production, nitrophenol reduction, dye degradation, and water purification, highlighting his focus on environmental remediation. Anshuman is highly skilled in the synthesis, functionalization, and characterization of nanomaterials, with expertise in advanced techniques such as NMR, HRMS, LC-MS, FTIR, SEM, TEM, EDAX, TGA, BET, XPS, and cyclic voltammetry. He is proficient in scientific software including ChemDraw, SciFinder, MestReNova, and Origin, and has strong abilities in data interpretation, research writing, and presentations. His work has been published in leading journals such as Organic & Biomolecular Chemistry, ACS Applied Nano Materials, Dalton Transactions, and Catalysis Science & Technology, reflecting his significant contributions to the field. In addition to his research, he has participated in several national symposia, presenting his findings and engaging with the scientific community. Recognized for his creativity, organization, and teamwork, Anshuman combines strong academic knowledge with practical laboratory expertise. His work contributes to the advancement of sustainable catalysis and functional materials, demonstrating his potential as an emerging researcher in materials and catalytic chemistry.

Featured Publications

Anshuman, Laxmi, R., Mishra, R., & Kuila, B. K. (2025). Visible light driven C–N cross-coupling reactions catalysed by a conjugated polymer network. Organic & Biomolecular Chemistry.

Laxmi, R., Anshuman, Behere, R. P., Manna, A., & Kuila, B. K. (2023). UV cross-linked polymer stabilized gold nanoparticles as a reusable dip-catalyst for aerobic oxidation of alcohols and cross-aldol reactions. ACS Applied Nano Materials, 6(20), 19061–19072.

Anshuman, Laxmi, R., Gupta, P., Mishra, R., Gupta, N., & Kuila, B. K. (2024). Ni-Pd bimetallic nanoparticles stabilized polymer membrane as an efficient dip-catalyst for oxidative coupling of aromatic amines to access symmetrical and unsymmetrical azo compounds. Dalton Transactions.

Laxmi, R., Anshuman, Gupta, N., Anamika, Maurya, A., Behere, R. P., Sharma, R., Maiti, B., & Kuila, B. K. (2024). Fluorene and triazine-based conjugated polymer networks with tuned frontier orbital energy levels for improving organic photocatalysis. ACS Applied Polymer Materials, 6, 15136–15149.

Anamika | Polymer Materials | Women Researcher Award

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Ms. Anamika | Polymer Materials | Women Researcher Award

Banaras Hindu University | India

Anamika is a dedicated and accomplished researcher in the field of chemistry, currently pursuing her PhD at the Department of Chemistry, Institute of Science, Banaras Hindu University, Varanasi. She completed her Master of Science in Physical Chemistry from the University of Allahabad with excellent academic performance and holds a Bachelor of Science degree in Chemistry Honors from B M Memorial Degree College, Dr. Rammanohar Lohia Avadh University, Ayodhya. Anamika’s research focuses on the design and synthesis of functional monomers and their polymerization, particularly linear conjugated polymers and conjugated polymer networks for applications in optoelectronics, electrochromic devices, sensing, and photocatalysis. She has extensive experience with polymerization techniques including Kumada and Suzuki condensation, ATRP, and RAFT, and is proficient in characterizing materials through advanced instrumental techniques such as NMR, FTIR, XPS, UV-Vis spectroscopy, TCSPC, FESEM, TEM, AFM, and electrochemical analysis. Her work also involves electronic device fabrication, including photodetectors, OLEDs, and solar cells, alongside DFT studies to predict optoelectronic properties. Anamika has made significant scholarly contributions with multiple publications in reputed journals like ACS Applied Polymer Materials, Nanoscale Advances, and Catalysis Science & Technology, exploring photoluminescence, charge transfer, and functional applications of conjugated polymer networks. She has also presented her research at national and international conferences, including the European Polymer Congress. Recognized for her excellence, she has received prestigious fellowships such as the Senior Research Fellowship from the University Grants Commission and qualified the CSIR-NET for JRF with a notable all-India rank. Fluent in Hindi and English, Anamika combines rigorous research expertise with hands-on experience in modern chemistry techniques and device fabrication. Her work reflects a strong commitment to advancing functional polymer materials for sustainable technological applications, demonstrating innovation, academic excellence, and a dedication to contributing to the field of materials chemistry.

Featured Publications

Gupta, N., Nagar, M. R., Anamika, Gautam, P., Maiti, B., Jou, J. H., & Kuila, B. K. (2022). Triazine and thiophene-containing conjugated polymer network emitter-based solution-processable stable blue organic LEDs. ACS Applied Polymer Materials, 5(1), 130–140.

Anamika, Gupta, N., Sharma, D., Maurya, A., Kumar, A., Jou, J. H., & Kuila, B. K. (2025). Side-chain polarity-dependent photoluminescence and deep blue electroluminescence in fluorene-based conjugated polymer networks. ACS Applied Polymer Materials, 7(9), 5672–5683.

Anamika, Gupta, N., Maurya, A., & Kuila, B. K. (2025). Highly fluorescent conjugated polymer network as reversible and colorimetric probe for ultrafast detection of BF3 and amine. ACS Applied Polymer Materials, 7(4), 2584–2594.

Gupta, N., Anamika, Maurya, A., Hazra, S., Pal, B. N., & Kuila, B. K. (2025). Efficient photoinduced charge transfer between linear conjugated polymer and polymer network for light harvesting application. ACS Applied Polymer Materials, 7(10), 5874–5883.

Trehan, M., Malviya, U., Tiwari, A., Kumar, A., Anamika, & Bamal, R. (2025). Influence of vitamin D and calcium on the development of malocclusion: A cross-sectional study. Journal of Indian Orthodontic Society.