Abedien Zabardasti | Chemistry and Materials Science | Best Researcher Award

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Prof. Dr. Abedien Zabardasti | Chemistry and Materials Science | Best Researcher Award

Lorestan University | Iran

Prof. Abedein Zabardasti is a distinguished Full Professor of Inorganic Chemistry at Lorestan University, Iran, recognized for his extensive research contributions in coordination chemistry, molecular interactions, nanochemistry, and theoretical chemistry. He earned his Ph.D. and M.Sc. degrees in Chemistry from Shiraz University, and his B.Sc. from the University of Tehran. His innovative studies explore molecular binding mechanisms, nanostructured materials, and porphyrin-based systems with applications in catalysis and environmental chemistry. As a dedicated educator, Prof. Zabardasti has supervised numerous graduate students and played a vital role in advancing chemical education and research infrastructure at Lorestan University. His scholarly excellence has been recognized through various academic honors and leadership roles, including serving as Head of the Department of Chemistry. His work continues to inspire interdisciplinary collaboration and innovation in inorganic and materials chemistry, contributing significantly to the understanding and application of molecular and nanostructured systems for sustainable development.

Profiles : Google Scholar | Orcid

Featured Publications

Zabardasti, A., Abd Nusaif, K. I., Abd Al-Aama, Z. M., & Salehnassaj, M. (2025). Computational investigation of hydrogen-rich BH₄(H₂)ₙ⁻ aggregates. International Journal of Hydrogen Energy, 192, 152252.

Sepahvandian, M., Abd Al-Aama, Z. M., Zahraa, M., Al-Masoudi, H. Q., & Zabardasti, A. (2025). Theoretical investigation of optical properties of adducts of Aun and Cun (n = 1–3) with free base porphyrins. Bulletin of the Chemical Society of Ethiopia, 39(9).

Jaberansari, F., & Zabardasti, A. (2025). Designing high-performance nonlinear optical materials via interaction of hexahelicene with coinage metal clusters. Iranian Journal of Chemistry and Chemical Engineering, e730649.

Konani, T., Zabardasti, A., & Al-Baiati, M. N. (2025). Hydrogen storage using Li⁺ decorated bicyclo[2.2.1]hepta-2,5-diene molecule: A theoretical investigation. Structural Chemistry, 1–14.

Sepahvandian, M., & Zabardasti, A. (2025). Exploring limonene adsorption on magnesium and selenium doped AlP nanosheets: A DFT study. Computational Condensed Matter, e01094.

Gurmeet Kaur | Chemistry and Materials Science | Best Researcher Award

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Dr. Gurmeet Kaur | Chemistry and Materials Science | Best Researcher Award

Punjabi University | India

Dr. Gurmeet Kaur is a distinguished researcher and faculty member in the Department of Chemistry at Punjabi University, Patiala, specializing in organic synthesis and heterocyclic chemistry. With an impressive research portfolio, she has authored more than 65 publications, accumulating over 541 citations and maintaining an h-index of 14, reflecting her impactful contributions to chemical sciences. Dr. Kaur obtained her doctoral degree in Organic Chemistry and has since engaged in extensive postdoctoral and academic work focused on developing environmentally benign synthetic methodologies, coordination complexes, and bioactive compounds. Her research integrates green chemistry principles and advanced analytical techniques to explore molecular design for pharmaceutical and material applications. Throughout her career, she has mentored numerous postgraduate and doctoral students while collaborating with interdisciplinary teams on national and international projects. Her scholarly excellence has been recognized through several academic awards and research grants, acknowledging her innovation and dedication to sustainable chemistry. Dr. Gurmeet Kaur continues to advance the field through her publications, conferences, and contributions to chemical education, promoting scientific curiosity and sustainable research for future generations.

Profile : Scopus

Featured Publications

Kaur, G., & Goyal, B. (2025). Ligand-based virtual screening to discover potential inhibitors of SARS-CoV-2 main protease. Physical Chemistry Chemical Physics, 27, 19877–19897.

Garg, M., Sharma, D., Kaur, G., & others. (2024). Factor defining the effects of tetraalkylammonium chloride on stability, folding, and dynamics of horse cytochrome c. International Journal of Biological Macromolecules, 276.

Kaur, M., Rehman, H. M., Wu, Y., Kaur, G., Hammad, H. M., Usmani, Y. S., Kaur, A., & Bansal, M. (2025). Comprehensive analysis and outcomes of hybridization of physiologically active heterocycles targeting epidermal growth factor receptor (EGFR). Computers in Biology and Medicine, 184, 109347.

Kaur, G. (2025). Investigating the chemistry of newly synthesized acetamide linker based purines/pyrimidine derivatives towards DNA receptor site using in silico and in vitro studies. Journal of Biomolecular Structure & Dynamics.

Garg, M., Sharma, D., Kaur, G., & others. (2024). Factor defining the effects of tetraalkylammonium chloride on stability, folding, and dynamics of horse cytochrome c. International Journal of Biological Macromolecules, 276,