ProfessorsProfessors of Tokyo Institute of TechnologyYamada Akira

Yamada Akira

Tokyo Institute of Technology

H-index: 48

Asia-Japan

About Yamada Akira

Yamada Akira, With an exceptional h-index of 48 and a recent h-index of 19 (since 2020), a distinguished researcher at Tokyo Institute of Technology, specializes in the field of solar cells, semiconductors, Cu(InGa)Se2, Si, Cu2ZnSnS4.

His recent articles reflect a diverse array of research interests and contributions to the field:

In2S3 Thin Films via Open‐Air Chemical Vapor Deposition Using Indium‐Diethyldithiocarbamate: Deposition and Characterization

Optimum Electrical and Optical Properties of Transparent Conducting Oxide for Cu(In,Ga)Se2 Photovoltaic Module Applications

HEAT-TOLERANT FLEXIBLE CHALCOPYRITE SOLAR CELLS VIA ALL-SPUTTERED CD-FREE ELECTRON TRANSPORT LAYERS

Mechanism analysis of CuInS2 and Cu (In, Ga) S2 growth via KCN-and H2S-free process and solar-cell application

Development of n-type Zn (O, S) buffer layer deposited by open-air CVD method for Cu (In, Ga) Se2 solar cells

Analysis of EBIC time-variation using 2D simulation including charge states in V Se–V Cu divacancy complex

Growth of Zn‐Ge‐O Thin‐Film as a Transparent Conductive Oxide Buffer Material for Chalcopyrite Solar Cell

High efficiency flexible chalcopyrite solar cells with narrow-gap absorber for tandem applications

Yamada Akira Information

University	Tokyo Institute of Technology
Position	___
Citations(all)	8608
Citations(since 2020)	1639
Cited By	7672
hIndex(all)	48
hIndex(since 2020)	19
i10Index(all)	191
i10Index(since 2020)	56
Email	Access Email
University Profile Page	Tokyo Institute of Technology
Google Scholar	View Google Scholar Profile

Yamada Akira Skills & Research Interests

solar cells

semiconductors

Cu(InGa)Se2

Cu2ZnSnS4

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