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ABDUL KUDDUS

Senior Researcher · Ritsumeikan University

https://researchid.co/kuddus4910
@research-db.ritsumei.ac.jp
53Scopus Publications
2682Google Scholar Citations
25Google Scholar h-index
32Google Scholar i10-index

Biography

Dr. Abdul Kuddus is a Senior Researcher at Ritsumeikan Global Innovation Research Organization (R-GIRO), Ritsumeikan University, Japan. He received his Ph.D. in Functional Materials Science from Saitama University, Japan, in 2022, and his B.Sc. and M.Sc. in Applied Physics and Electronic Engineering from the University of Rajshahi, Bangladesh. His research focuses on 2D semiconductors, high-k dielectrics, thin-film growth, and advanced electronic and photonic devices, including MOSFETs, solar cells, photodetectors, and sensors. He also has expertise in photovoltaic and semiconductor device modeling using SCAPS-1D, AFORS-HET, AMPS-1D, wxAMPS, and DFT-based simulation tools. Dr. Kuddus has authored over 50 scholarly publications and presented his research at numerous international conferences across Asia, Europe, and North America.

Education

2022-Ph.D. in Functional Materials Science, Graduate School of Science and Engineering, Saitama University, Japan 2018-M.Sc. Engineering in applied physics and electronic engineering, University of Rajshahi, Bangladesh. 2016-B.Sc. Engineering in applied physics and electronic engineering, University of Rajshahi, Bangladesh.

Recent Scopus Publications

  1. Machine learning-aided modeling and absorption optimization in stacked-absorber heterojunction solar cells
    Journal of Physics D Applied Physics, 2026
  2. Conformal deposition of amorphous TiOx in high-aspect-ratio trenches by atmospheric-pressure mist chemical vapor deposition
    Journal of Vacuum Science and Technology A Vacuum Surfaces and Films, 2026
  3. Synergistic role of salt-precursor-derived Cu-doping in solution-processed α-Fe₂O₃ films for enhanced charge separation and photocatalytic efficiency
    Discover Applied Sciences, 2025
  4. Microwave-assisted, surfactant-free synthesis of high-purity mesoporous silica from sugarcane bagasse ash for rapid and reusable textile dye removal
    Next Materials, 2025
  5. III-V compound-based solar cell technologies
    Advanced Materials and Technologies for Photovoltaics, 2025

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