黑磷
兴奋剂
硅
黑硅
材料科学
光电子学
纳米技术
磷
工程物理
物理
冶金
作者
Giuseppe Scardera,Shaozhou Wang,Yu Zhang,Muhammad Umair Khan,Shuai Zou,Daqi Zhang,Rasmus Schmidt Davidsen,Ole Hansen,Ly Mai,D.N. Payne,Bram Hoex,Malcolm Abbott
标识
DOI:10.1109/jphotov.2020.3047420
摘要
The integration of nanotextured black silicon (B-Si) into solar cells is often complicated by its enhanced phosphorus doping effect, which is typically attributed to increased surface area. In this article, we show that B-Si's surface-to-volume ratio, or specific surface area (SSA), which is directly related to surface reactivity, is a better indicator of reduced sheet resistance. We investigate six B-Si conditions with varying dimensions based on two morphology types prepared using metal-catalyzed chemical etching and reactive-ion etching. We demonstrate that for a POCl$_{3}$ diffusion, B-Si sheet resistance decreases with increasing SSA, regardless of surface area. 2-D dopant contrast imaging of different textures with similar surface areas also indicates that the extent of doping is enhanced with increasing SSA. 3-D diffusion simulations of nanocones show that both the extent of radial doping within a texture feature and the metallurgical junction depth in the underlying substrate increase with increasing SSA. We suggest SSA should be considered more readily when studying B-Si and its integration into solar cells.
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