Yamada Akira
Tokyo Institute of Technology
H-index: 48
Asia-Japan
Top articles of Yamada Akira
Title | Journal | Author(s) | Publication Date |
---|---|---|---|
In2S3 Thin Films via Open‐Air Chemical Vapor Deposition Using Indium‐Diethyldithiocarbamate: Deposition and Characterization | physica status solidi (RRL)–Rapid Research Letters | Akihiro Funaki Fumiya Furumaki Takahito Nishimura Akira Yamada | 2024/4 |
Optimum Electrical and Optical Properties of Transparent Conducting Oxide for Cu(In,Ga)Se2 Photovoltaic Module Applications | physica status solidi (a) | Yosuke Abe Takahito Nishimura Akira Yamada | 2024/2 |
HEAT-TOLERANT FLEXIBLE CHALCOPYRITE SOLAR CELLS VIA ALL-SPUTTERED CD-FREE ELECTRON TRANSPORT LAYERS | Proceedings of 40th European Photovoltaics Solar Energy Conference and Exhibition | HIROKI Sugimoto KAZUHITO Fukasawa MAYO Kawahara YOSHIAKI Hirai AKIRA Yamada | 2023 |
Mechanism analysis of CuInS2 and Cu (In, Ga) S2 growth via KCN-and H2S-free process and solar-cell application | Japanese Journal of Applied Physics | Yota Suzuki Dwinanri Egyna Tomoki Shibata Takahito Nishimura Akira Yamada | 2023/5/5 |
Development of n-type Zn (O, S) buffer layer deposited by open-air CVD method for Cu (In, Ga) Se2 solar cells | Japanese Journal of Applied Physics | Akihiro Funaki Fumiya Furumaki Takahito Nishimura Akira Yamada | 2023/4/27 |
Analysis of EBIC time-variation using 2D simulation including charge states in V Se–V Cu divacancy complex | Japanese Journal of Applied Physics | Ryotaro Fukuda Shinkai Shimizu Takahito Nishimura Akira Yamada | 2023/4/20 |
Growth of Zn‐Ge‐O Thin‐Film as a Transparent Conductive Oxide Buffer Material for Chalcopyrite Solar Cell | Crystal Research and Technology | Dwinanri Egyna Satoru Ito Takahito Nishimura Akira Yamada | 2023/2 |
High efficiency flexible chalcopyrite solar cells with narrow-gap absorber for tandem applications | Proceedings of 34 th International Photovoltaic Science and Engineering Conference | Hiroki Sugimoto Yoshiaki Hirai Akira Yamada | 2023 |
Experimental and theoretical EBIC analysis for grain boundary and CdS/Cu (In, Ga)Se2 heterointerface in Cu (In, Ga)Se2 solar cells | Progress in Photovoltaics: Research and Applications | Ryotaro Fukuda Takahito Nishimura Akira Yamada | 2023/7 |
Physical and chemical aspects at the interface and in the bulk of CuInSe 2-based thin-film photovoltaics | Shogo Ishizuka Jiro Nishinaga Kosuke Beppu Tsuyoshi Maeda Fuuka Aoyagi | 2022 | |
The Advantage of Low Electron Affinity Materials as the Window Layer of Buffer-free CIGS2 Solar Cells | Dwinanri Egyna Kazuyoshi Nakada Akira Yamada | 2021/2/26 | |
Cathode luminescence analysis of Cu (In, Ga) Se2 solar cells treated with thiourea solution | Japanese Journal of Applied Physics | Kazuyoshi Nakada Takahito Nishimura Naoki Suyama Akira Yamada | 2021/2/8 |
CIGS photovoltaics: reviewing an evolving paradigm | Billy J Stanbery Daniel Abou-Ras Akira Yamada Lorelle Mansfield | 2021/12/30 | |
Benefits of Low Electron-Affinity Material as the N-Type Layer for Cu(In,Ga)S2 Solar Cell | Energies | Dwinanri Egyna Kazuyoshi Nakada Akira Yamada | 2021/12/21 |
The Importance of Low Electron Affinity Materials as the n-type Layers of CIGS2 Solar Cell Design | Dwinanri Egyna Kazuyoshi Nakada Akira Yamada | 2021/6/20 | |
Development of lift-off method for CIGS solar cell using sacrificial layers | Ryoichi Sasaki Kazuyoshi Nakada Akira Yamada | 2020 | |
Device analysis of CIGS2/CIGSe2 tandem solar cell | Ushin Rai Kazuyoshi Nakada Akira Yamada | 2020 | |
Interfacial modification mechanism by aging effect for high-performance Cd-free and all-dry process Cu (In, Ga)(S, Se) 2 solar cells | Applied Physics Letters | Takahito Nishimura Jakapan Chantana Yu Kawano Akira Yamada Yoshinori Kimoto | 2020/11/30 |
Enhancement of Cu (In, Ga) Se2 solar cells efficiency by controlling the formation of Cu-deficient layer | Japanese Journal of Applied Physics | Seunghwan Ji Takahiro Hayakawa Naoki Suyama Kazuyoshi Nakada Akira Yamada | 2020/3/30 |
Improvement of Cu (In, Ga) Se2 solar cell performance by thiourea treatment | Japanese Journal of Applied Physics | Kazuyoshi Nakada Motoki Watanabe Takahito Nishimura Naoki Suyama Akira Yamada | 2020/3/3 |