Band gap engineering of RF-sputtered CuInZnSe2 thin films for indium-reduced thin-film solar cell application

Wibowo Rachmat Adhi; Kim Kyoo Ho

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Band gap engineering of RF-sputtered CuInZnSe2 thin films for indium-reduced thin-film solar cell application

机译：射频溅射CuInZnSe2薄膜的带隙工程在铟还原薄膜太阳能电池中的应用

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We demonstrated the preparation and characterization of radio frequency (RF)-sputtered CuInZnSe2 thin films for indium-reduced thin-film solar cell application. Sputtering targets composed of high-purity CuSe, InSe and ZnSe powders were employed for preparing CuInZnSe2 films with various band gaps. Under an optimum condition, an increase of zinc concentration in the film could reduce indium approximately to 45%. The structure of the films showed a chalcopyrite phase with a predominant (1 12) reflection. The p-type CuInZnSe2 films exhibited a shift of optical transmittance to a lower wavelength and the band gap could be engineered from 1.0 to 1.25 eV in proportion with increasing zinc concentration.

机译：我们演示了用于铟还原薄膜太阳能电池应用的射频（RF）溅射CuInZnSe2薄膜的制备和表征。用高纯度CuSe，InSe和ZnSe粉末组成的溅射靶材制备了带隙不同的CuInZnSe2薄膜。在最佳条件下，膜中锌浓度的增加可将铟减少约45％。薄膜的结构显示出具有主要（1 12）反射的黄铜矿相。 p型CuInZnSe2薄膜表现出光透射率向较低波长的偏移，并且带隙可以随着锌浓度的增加按比例设计在1.0到1.25 eV之间。

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《Solar Energy Materials and Solar Cells: An International Journal Devoted to Photovoltaic, Photothermal, and Photochemical Solar Energy Conversion》 |2009年第7期|共4页
作者
Wibowo Rachmat Adhi; Kim Kyoo Ho;
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正文语种 eng
中图分类 726LB051;
关键词
Sputtering; Chalcopyrite; Optical properties; Solar absorber;

机译：溅射;黄铜矿;光学性能;太阳能吸收器;

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1. Band gap engineering of RF-sputtered CuInZnSe2 thin films for indium-reduced thin-film solar cell application [J] . Wibowo Rachmat Adhi, Kim Kyoo Ho Solar Energy Materials and Solar Cells: An International Journal Devoted to Photovoltaic, Photothermal, and Photochemical Solar Energy Conversion . 2009,第6a7期

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2. Effect of wide band-gap TCO properties on the bifacial CZTS thin-films solar cells performances [J] . Bouchama Idris, Ali-Saoucha Salim Optik: Zeitschrift fur Licht- und Elektronenoptik: = Journal for Light-and Electronoptic . 2017,第期

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3. Routes to develop a [S]/([S] plus [Se]) gradient in wide band-gap Cu2ZnGe (S,Se)(4) thin-film solar cells [J] . Ruiz-Perona Andrea, Gurieva Galina, Sun Michael, Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics . 2021,第1期

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机译：Cu（In，Ga）（Se，S）_2薄膜中的带隙变宽对于ZnO / CdS / Cu（In，Ga）（Se，S）_2异质结太阳能电池光伏性能的作用
5. Development of High Band Gap Absorber and Buffer Materials for Thin Film Solar Cell Applications. [D] . Dwyer, Dan. 2011

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7. Routes to develop a S/(S+Se) gradient in wide band-gap Cu2ZnGe(S,Se)4 thin-film solar cells [O] . Andrea Ruiz-Perona, Galina Gurieva, Michael Sun, 2021

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Band gap engineering of RF-sputtered CuInZnSe2 thin films for indium-reduced thin-film solar cell application

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