肖特基势垒高度对硅太阳能电池的影响

S. Thibert, J. Jourdan, B. Bechevet, D. Chaussy, N. Reverdy-Bruas, D. Beneventi
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引用次数: 1

摘要

随着最近在光伏工业中引入离子注入,现在更容易仔细地定制发射极掺杂轮廓。然而,由于金属/硅的接触电阻率将金属化布局紧密联系在一起,因此应同时优化金属化布局。在这项工作中,一种先进的协同优化程序可以找出肖特基势垒高度对金属栅格设计和最佳掺杂谱的影响。计算了2 × 2 cm2理想硅太阳电池的理论电学性能。根据这项工作,当肖特基势垒高度从0.5 eV增加到0.9 eV时,最大可达到效率从26.2%下降到25.3%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Influence of the Schottky barrier height on the silicon solar cells
With the recent introduction of ion implantation in the photovoltaic industry, it is now easier to carefully tailor the emitter doping profile. However the metallization layout should be optimized in the same time, as they are closely linked via the metal/silicon contact resistivity. In this work, an advanced co-optimization procedure allows finding out the influence of the Schottky barrier height on the metal grid design and the optimal doping profile. The theoretical electrical properties of a 2 × 2 cm2 ideal silicon solar cell are also computed for each optimal combination. According to this work, the maximal achievable efficiency decreases from 26.2 % to 25.3 % if the Schottky barrier height increases from 0.5 eV to 0.9 e V.
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