Tailor-Making Chalcopyrite Alloys for 100-Nm Thin Solar Cells

RAN Pub Date : 2017-04-01 DOI:10.11159/ICNEI17.1
C. Persson
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Abstract

Emerging Cu-based materials are explored to benefit from the energetically high-lying Cu d-state in combination with low effective mass of the minority carriers. Materials with higher functionality open for ultrathin devices and thereby less raw material usage. In this talk, we discuss the details in the optoelectronic properties of emerging Cu-based chalcopyrites, like for instance Cu2(Sn,Ge)S3, Cu3Sb(S,Se)3, Cu3Bi(S,Se)3, and Cu2XSnS4 (X = transition metal atom), employing hybrid functionals within the density functional theory. We analyze the electronic structure and the optical properties in terms of the absorption coefficients. By modeling the maximum device efficiency with respect to film thickness, we further discuss the optoelectronic response. The results help to understand fundamental physics of the Cu-based compounds in order to design and optimize very thin solar-energy devices.
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定制100纳米薄太阳能电池用黄铜矿合金
新兴的Cu基材料将受益于高能量的Cu- d态和少数载流子的低有效质量。具有更高功能的材料可用于超薄设备,从而减少原材料的使用。在这次演讲中,我们讨论了新出现的cu基黄铜矿的光电性质的细节,例如Cu2(Sn,Ge)S3, Cu3Sb(S,Se)3, Cu3Bi(S,Se)3和Cu2XSnS4 (X =过渡金属原子),在密度泛函理论中采用杂化泛函。我们用吸收系数来分析电子结构和光学性质。通过对器件最大效率与薄膜厚度的关系进行建模,我们进一步讨论了光电响应。研究结果有助于理解铜基化合物的基本物理性质,从而设计和优化超薄太阳能装置。
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