Title :
Conventionally-processed silicon nanowire solar cells demonstrating efficiency improvement over standard cells
Author :
Jura, Michael P. ; Miller, Jeff B. ; Yim, Joanne W. L. ; Forziati, Joanne ; Murphy, Bernadette ; Chleboski, Richard ; Cooper, Ian B. ; Rohatgi, Ajeet ; Black, Marcie R.
Author_Institution :
Bandgap Eng., Salem, NH, USA
Abstract :
We fabricate silicon nanowire solar cells which, other than the texturing step, are processed by conventional silicon solar cell manufacturing equipment. The nanowires reduce reflection compared to standard multicrystalline cells, leading to higher short-circuit current. A less anticipated benefit is that the nanowires can also increase open-circuit voltage and fill factor. Compared to standard multicrystalline cells processed at the same time, our nanowire cells demonstrate a 0.4% efficiency improvement when only changing the texturing step and a 0.6% efficiency improvement when also adjusting the diffusion step. Our highest nanowire cell efficiency is 18.0% on a multicrystalline wafer, and 19.0% on a monocrystalline wafer.
Keywords :
elemental semiconductors; nanowires; short-circuit currents; silicon; solar cells; Si; diffusion step; efficiency 0.4 percent; efficiency 0.6 percent; fill factor; multicrystalline wafer; open-circuit voltage; reflection reduction; short-circuit current; silicon nanowire solar cells; silicon solar cell manufacturing equipment; standard multicrystalline cells; texturing step; Fabrication; Geometry; Photovoltaic cells; Reflection; Silicon; Standards; Surface treatment; nanofabrication; nanowires; optical reflection; photovoltaic cells; silicon; surface texture;
Conference_Titel :
Photovoltaic Specialist Conference (PVSC), 2014 IEEE 40th
Conference_Location :
Denver, CO
DOI :
10.1109/PVSC.2014.6924992
