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Dr. Syed Muhammad Kazim Abbas Naqvi | Optoelectronics | Best Researcher Award

Shenzhen MSU-BIT University  | Pakistan

Dr. Syed Muhammad Kazim Abbas Naqvi is a highly motivated researcher specializing in the development and optimization of perovskite-based optoelectronic devices, with strong expertise in theoretical modeling, computational analysis, and advanced material engineering. He is completing his Ph.D. in Material Science & Engineering at the School of Material Science & Engineering, Beijing Institute of Technology, China. His doctoral research focuses on improving the performance and stability of perovskite solar cells (PSCs) and perovskite light-emitting diodes (PeLEDs), using advanced theoretical calculations, simulations, and innovative fabrication techniques. His thesis, titled Theoretical Investigation of the Effects of Charge Transport Materials on Interfacial Performance in Perovskite-Based Optoelectronic Devices, highlights his commitment to deepening understanding of interfacial charge transport mechanisms and material behavior. Before his Ph.D., Dr. Naqvi earned an M.S. in Physics and a B.S. in Physics from COMSATS University Islamabad, Pakistan. He is driven by a passion for tackling challenging problems in materials science, developing novel perovskite compositions, and integrating theoretical insights into practical device improvements. Dr. Naqvi has actively contributed to the scientific community through several high-impact, peer-reviewed publications in journals such as Computational Condensed Matter, Nanoscale Advances, RSC Advances, and Journal of Physical Chemistry C. His research addresses key challenges in photovoltaic efficiency, electronic band structure optimization, and the longevity of perovskite devices. He has also presented at multiple international conferences, including the Shenzhen MSU-BIT Youth Forum and the International Conference on Industry-Education Integration. To date, his work has been cited by 30 documents, published across 6 key research articles, with an h-index of 3. Known for his strong problem-solving skills, analytical mindset, and dedication to innovation, Dr. Naqvi seeks a challenging part-time role in a competitive organization where he can apply his expertise in material science to contribute meaningfully to technological advancement.

Profile: Scopus

Featured Publications

  1. Aslam, F., Islam, A. U., Niazi, S. U. K., Al-Hazmi, G. A. A. M., Shaheen, M., Saleem, S., & Naqvi, S. M. K. A. (2025). Theoretical exploration of multi-functional K₂RbInX₆ (X = Cl, Br) halide perovskites for optoelectronic and thermoelectric applications. Computational Condensed Matter.

  2. Naeem, H., Alrebdi, T. A., Salem, K. H., Imran, M., Almohammedi, A., Soliman, M. S., Naeem, H., Faizan, M., Naqvi, S. M. K. A., & Khera, R. A. (2025). Heterocyclic π-linkers for reduced energy dissipation in symmetrical IDT-core based non-fullerene acceptors: A route to efficient organic solar cells. Nanoscale Advances.

  3. Khan, Z., Alathlawi, H. J., Salem, K. H., Naqvi, S. M. K. A., Jaghdam, I. H., Soliman, M. S., Hasanin, T. H. A., Ali, S., Bhatti, H. N., & Khera, R. A. (2025). Computational insights into phthalimide-core non-fullerene acceptors for next-generation organic solar cells. RSC Advances, 15, 31019–31031.

  4. Naqvi, S. M. K. A., Zhu, Y., & Chang, S. (2023). Manipulating interfacial performance of TPBi–FAPbI₃ perovskite interfaces based on TPBi orientations: A theoretical perspective. Journal of Physical Chemistry C, 127(46), 22752–22759.

  5. Naqvi, S. M. K. A., Baig, M. F., Farid, T., Nazir, Z., Mohsan, S. A. H., Liu, H., Cai, W., & Chang, S. (2023). Unraveling degradation processes and strategies for enhancing reliability in organic light-emitting diodes. Nanomaterials, 13(23), 3020.

Syed Muhammad Kazim Abbas Naqvi | Optoelectronics | Best Researcher Award

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