Kazuo Jimbo scite author profile

Cu2ZnSnS4 (CZTS) thin film solar cells have been fabricated by co-sputtering technique using three targets of Cu, SnS, and ZnS. CZTS-based thin film solar cells over 6.7% efficiency were obtained for the first time by soaking the CZTS layer on the Mo coated soda-lime glass substrate in deionized water (DIW) after forming the CZTS layer. It was found that DIW-soaking had the effect of preferential etching, which eliminated selectively metal oxide particles in the CZTS layer, by electron probe X-ray micro analysis.

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Cu2ZnSnS4-type thin film solar cells using abundant materials

Jimbo

et al. 2007

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H₂Evolution from Water on Modified Cu₂ZnSnS₄Photoelectrode under Solar Light

Yokoyama

Minegishi

Jimbo

et al. 2010

Appl. Phys. Express

165

139

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Cu 2 ZnSnS 4 (CZTS) thin films were investigated as photoelectrodes for H 2 evolution from water under solar light. Surface modifications with Pt, CdS, and TiO 2 enhanced the incident photon-to-current conversion efficiency of CZTS thin film electrode for H 2 production from water by three orders of magnitude to 40% ( ¼ 600 nm). The solar energy conversion efficiency in H 2 production using modified CZTS reached 1.2%. Our results demonstrate that the photoelectrochemical properties of CZTS were significantly improved by surface modification, which suggests the feasibility of CZTS as a photocathode for a photoelectrochemical water-splitting system.

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The Influence of the Composition Ratio on CZTS-based Thin Film Solar Cells

et al. 2009

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Cu2ZnSnS4 (CZTS) thin films were fabricated by using three RF co-sputtering continued with sulfurization method. The new type of thin film solar cells using CZTS as an absorber consists of buffer-layer and window-layer on CZTS films that were fabricated on a Mo-coated Soda Lime Glass (SLG) substrate. It was confirmed that CZTS solar cells with high conversion efficiency existed in a relatively narrow composition region. In this paper, the fabrication method of CZTS-based thin film solar cells in our laboratory was stated briefly and the influence of the composition ratio on the photovoltaic properties were presented. Furthermore, the properties of a genuine non-toxic solar cell using a Cd-free buffer-layer were introduced.

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Kazuo Jimbo

Development of CZTS-based thin film solar cells

Enhanced Conversion Efficiencies of Cu₂ZnSnS₄-Based Thin Film Solar Cells by Using Preferential Etching Technique

Cu2ZnSnS4-type thin film solar cells using abundant materials

H₂Evolution from Water on Modified Cu₂ZnSnS₄Photoelectrode under Solar Light

The Influence of the Composition Ratio on CZTS-based Thin Film Solar Cells

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Kazuo Jimbo

Development of CZTS-based thin film solar cells

Enhanced Conversion Efficiencies of Cu2ZnSnS4-Based Thin Film Solar Cells by Using Preferential Etching Technique

Cu2ZnSnS4-type thin film solar cells using abundant materials

H2Evolution from Water on Modified Cu2ZnSnS4Photoelectrode under Solar Light

The Influence of the Composition Ratio on CZTS-based Thin Film Solar Cells

Contact Info

Product

Resources

About

Enhanced Conversion Efficiencies of Cu₂ZnSnS₄-Based Thin Film Solar Cells by Using Preferential Etching Technique

H₂Evolution from Water on Modified Cu₂ZnSnS₄Photoelectrode under Solar Light