Shamim Reza – Solar Cells – Most Cited Paper Award 

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Mr. Shamim Reza - Solar Cells - Most Cited Paper Award 

Advanced energy materials and solar cells research laboratory, BRUR -Bangladesh

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🎓 Early Academic Pursuits

Mr. Shamim Reza pursued his Bachelor of Science in Electrical and Electronic Engineering from Begum Rokeya University, Rangpur (BRUR), graduating with a commendable CGPA of 3.47/4.00. His academic journey, spanning February 2018 to October 2023, laid a strong foundation in advanced engineering concepts, particularly focusing on energy materials and solar technologies. His early academic endeavors demonstrated his dedication to addressing global energy challenges through innovative research in solar cells.

💼 Professional Endeavors

Currently serving as an Assistant Researcher at the Advanced Energy Materials and Solar Cell Research Laboratory at BRUR, Mr. Reza works under the supervision of Dr. Md. Ferdous Rahman. Since January 2023, his professional focus has been on the optimization and design of cutting-edge solar cell technologies. His role involves comprehensive investigations into hole and electron transport layers to improve the efficiency and sustainability of perovskite-based solar cells.

🔬 Contributions and Research Focus

Mr. Reza’s research focuses on lead-free perovskite solar cells, emphasizing the optimization of hole and electron transport layers to enhance power conversion efficiency. His contributions include the publication of ten impactful papers in internationally recognized journals, addressing topics such as novel inorganic perovskites, dual-layer photovoltaic devices, and advanced simulations for efficiency improvements. His research integrates experimental and computational approaches to develop sustainable and high-performance solar cell technologies.

🌍 Impact and Influence

Mr. Reza's research has significantly influenced the field of renewable energy. His publications in high-impact journals such as Journal of Physics and Chemistry of Solids and Solar Energy are widely recognized and cited, reflecting his contributions to advancing solar cell technologies. His work fosters global interest in the development of high-performance, lead-free materials for photovoltaic applications, aligning with the broader goals of sustainability and clean energy.

🏆Academic Cites

With an expanding list of publications, Mr. Reza's work has garnered considerable academic attention. His innovative designs and optimization strategies for solar cells are referenced in multiple studies, highlighting their relevance and applicability. His findings provide a crucial knowledge base for researchers and engineers striving to enhance the efficiency and environmental compatibility of perovskite-based photovoltaic systems.

🌟 Legacy and Future Contributions

Looking ahead, Mr. Shamim Reza aims to further revolutionize the field of solar cells by focusing on the development of environmentally friendly and highly efficient energy materials. His commitment to exploring novel perovskite structures and optimizing transport layers ensures his continued impact on the renewable energy sector. As an emerging leader in energy materials research, his legacy will inspire sustainable innovations and contribute to addressing global energy challenges.

📝Solar Cells

Mr. Shamim Reza’s groundbreaking research on solar cells has revolutionized the understanding of charge transport layers, leading to significant advancements in efficiency. His continued efforts in optimizing solar cells align with global sustainability goals, making his work a cornerstone in renewable energy research. The future of solar cells technology benefits immensely from his innovative and environmentally conscious research.

Notable Publication

📝Strategic design and evaluation of charge transport layers for high-efficiency lead-free BeSiP2-based perovskite solar cells: A careful examination into electron and hole transport layers

Authors: Reza, M.S., Ghosh, A., Reza, M.S., Awwad, N.S., Alturaifi, H.A.

Journal: Solar Energy

Year: 2025

Citations: 0

📝A comprehensive investigation involving numerous HTL and ETL layers to design and simulate high-efficiency Ca3AsI3-based perovskite solar cells

Authors: Reza, M.S., Ghosh, A., Gassoumi, A., Chaudhry, A.R., Akter, M.M.

Journal: Inorganic Chemistry Communications

Year: 2025

Citations: 0

📝Optimization of Sr3NCl3-based perovskite solar cell performance through the comparison of different electron and hole transport layers

Authors: Dey, N.L., Reza, M.S., Ghosh, A., Awwad, N.S., Ibrahium, H.A.

Journal: Journal of Physics and Chemistry of Solids

Year: 2025

Citations: 3

📝A thorough investigation of HTL layers to develop and simulate AgCdF3-based perovskite solar cells

Authors: Hassan, A.A., Selim Reza, M., Ghosh, A., Farad Ahmmed, M., Alrafai, H.A.

Journal: Materials Science and Engineering: B

Year: 2024

Citations: 2

📝Evaluation of design and device parameters for lead-free Sr3PBr3/Sr3NCl3 duel-layer perovskite photovoltaic device technology

Authors: Reza, M.S., Ghosh, A., Drissi, N., Reza, M.S., Sultana, S.

Journal: RSC Advances

Year: 2024

Citations: 0

Javad Maleki – Solar Cells – Young Scientist Award 

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Mr. Javad Maleki - Solar Cells - Young Scientist Award 

Tarbiat Modares University - Iran

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🎓 Early Academic Pursuits

Mr. Javad Maleki's academic journey began with a strong foundation in engineering. His outstanding performance in the Iranian national university entrance exam placed him in the top 1%, securing a full scholarship to study Biomedical Engineering (Bioelectric) at Sahand University of Technology. During his undergraduate studies, he demonstrated remarkable skills by designing and manufacturing an innovative automatic insulin injection device, achieving a GPA of 16.51/20. This foundational period established his interest in electronic devices and bioelectric applications, paving the way for his advanced research in electrical engineering.

💼 Professional Endeavors

Upon completing his B.S., Mr. Maleki pursued an M.S. in Electrical Engineering, focusing on Micro and Nano Electronic Devices at Tarbiat Modares University (TMU). His master's thesis, centered on designing a refractive index sensor using Fano resonance in all-dielectric metasurfaces, displayed his proficiency in advanced photonics and metasurface devices, with a GPA of 15.18/20. He continued to expand his expertise by becoming a Researcher at TMU, contributing significantly to the fields of solar cells and metasurface devices. In addition to his research roles, Mr. Maleki actively participated in academia, serving as a Workshop Instructor in Comsol Multiphysics Software and a Teaching Assistant for courses in Photonic Crystals, Semiconductor Devices, and Computational Optics and Photonics.

🔬 Contributions and Research Focus

Mr. Maleki's research contributions reflect a keen focus on solar cells and metasurface-based devices. His interests include metasurface-based sensors, optoelectronic devices, plasmonic devices, and numerical simulations. As an Academic Project Researcher and Researcher at TMU, he applied his skills in numerical simulation and nanofabrication to advance the field of optoelectronics. His work on solar cells highlights his commitment to improving global energy production solutions. Additionally, his expertise in various software, such as Comsol Multiphysics, CST Studio Suite, and Lumerical, has allowed him to conduct in-depth simulations and optimizations critical to designing high-performance electronic and optoelectronic devices.

🌍 Impact and Influence

Mr. Maleki’s influence extends to the broader academic and scientific communities. His top-ranking achievements in national entrance exams and full scholarships reflect his dedication and academic excellence. As a Reviewer for the International Journal of Energy Research, he contributes to the dissemination and evaluation of new findings, furthering advancements in global solar cell production and energy research. His role as an educator, instructing future engineers in the use of Comsol Multiphysics and foundational electronic principles, has also had a lasting impact, inspiring and equipping students with essential technical skills.

🏆Academic Cites

Mr. Maleki’s research output and academic contributions have garnered citations in fields related to electronic and photonic engineering. His work on refractive index sensors and metasurfaces has contributed significantly to the ongoing development of metasurface devices and optoelectronic applications. His publications continue to receive recognition and citations, marking his work as a valuable reference point for advancements in solar cells and metasurface technologies.

🌟 Legacy and Future Contributions

Looking to the future, Mr. Maleki is poised to leave a lasting legacy in the fields of electrical engineering and optoelectronics. His commitment to advancing solar cell production and his contributions to metasurface devices position him as a valuable asset to both academic and industrial communities. His research in metasurfaces and semiconductor devices holds promise for impactful future applications in energy and medical technology, showcasing his vision to address global challenges through innovation and engineering excellence.

📝Notable Publication

📝Refractive index sensor based on fano-magnetic toroidal quadrupole resonance enabled by bound state in the continuum in all-dielectric metasurface

Authors: J. Maleki, D. Fathi

Journal: Scientific Reports

Year: 2024

Citations: 2

📝Advanced terahertz refractive index sensor in all-dielectric metasurface utilizing second order toroidal quasi-BIC modes for biochemical environments

Authors: J. Maleki, D. Fathi

Journal: Scientific Reports

Year: 2024

Citations: 0

📝New design and optimization of half-tandem quantum dot solar cell: Over 30% power conversion efficiency using nanostructure oriented core-shell

Authors: J. Maleki, M. Eskandari, D. Fathi

Journal: Renewable Energy

Year: 2024

Citations: 8

📝PbS-TBAI / MoSe2-grating as new hole transport layer in perovskite solar cells: Superior efficiency enhancement thru simulation and optimization

Authors: J. Maleki, M. Eskandari, D. Fathi

Journal: Journal of Alloys and Compounds

Year: 2023

Citations: 22

📝Design of Single-Mode Single-Polarization Large-Mode-Area Multicore Fibers

Authors: K. Rashidi, D. Fathi, J. Maleki, S.M. Mirjalili, D. Abbott

Journal: Micromachines

Year: 2023

Citations: 2