Kesterite successes, ongoing work, and challenges: A perspective from vacuum deposition

I. Repins, M. Romero, Jian V. Li, S. Wei, D. Kuciauskas, Chunsheng Jiang, C. Beall, C. Dehart, J. Mann, Wan-Ching Hsu, G. Teeter, A. Goodrich, R. Noufi
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引用次数: 8

Abstract

Recent years have seen dramatic improvements in the performance of kesterite devices. The existence of devices of comparable performance, made by a number of different techniques, provides some new perspective on what characteristics are likely fundamental to the material. Here, we review progress in kesterite device fabrication, aspects of the film characteristics that have yet to be understood, and challenges in device development that remain for kesterites to contribute significantly to photovoltaic manufacturing. Performance goals, as well as characteristics of midgap defect density, free carrier density, surfaces, grain boundaries, grain-to-grain uniformity, and bandgap alloying are discussed.
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Kesterite的成功,正在进行的工作和挑战:从真空沉积的角度来看
近年来,kesterite器件的性能有了显著的提高。由许多不同技术制成的具有类似性能的设备的存在,为材料的基本特性提供了一些新的视角。在这里,我们回顾了kesterite器件制造的进展,薄膜特性尚未被理解的方面,以及器件开发中的挑战,这些挑战仍然使kesterite对光伏制造做出重大贡献。讨论了带隙合金的性能目标、中隙缺陷密度、自由载流子密度、表面、晶界、晶粒均匀性和带隙合金化的特性。
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