Title :
Controlling the defects of mc-Si ingot in industrial scale during crystallization
Author :
Shi-Kai Tzeng ; Jui-Pin Wu ; Chen-Hao Yang ; Lung-Sheng Liao ; Kai-An Hao ; Jiang-Kang Chou ; Yu-Hao Wu ; Yu-Chung Chen ; Chun-Wen Lai
Author_Institution :
Motech Ind., Inc., Tainan, Taiwan
Abstract :
In this article, mc-Si ingots are grown in industrial scale with directional solidification method. The ingot quality can be controlled by tuning the solidification rates. The defect fraction of which evaluated by photoluminescence and lifetime images are used to estimate ingot quality. The results show that the defect can be suppressed significantly during crystallization, leading to the improvement of solar cell performance. Under identical solar cell fabrication process, the whole-ingot-input cell efficiency is increased from 17.68% to17.79%.
Keywords :
crystal defects; crystallisation; elemental semiconductors; ingots; silicon; solar cells; Si; crystallization; defect fraction; directional solidification method; ingot quality; lifetime images; photoluminescence; solar cell fabrication process; solar cell performance; Abstracts; Pollution measurement; Production; Thickness measurement; ingot; mc-Si; solar cell; solidification;
Conference_Titel :
Photovoltaic Specialist Conference (PVSC), 2014 IEEE 40th
Conference_Location :
Denver, CO
DOI :
10.1109/PVSC.2014.6925571
