Low-cost ultrapure (>99.9999%) solar-grade Si by electrorefining

Author

Xiaofei Han ; Bin Zhou ; Meng Tao

Author_Institution

Lab. for Terawatt Photovoltaics, Arizona State Univ., Tempe, AZ, USA

fYear

2013

fDate

16-21 June 2013

Abstract

The current SiHCl₃-based processes to produce ultrapure Si are one of the major bottlenecks to lower-cost wafer-Si solar cells. Molten-salt electrorefining of Si is an alternative process to ultrapure Si, with a significantly lower energy input of ~15 kWh/kg. It is demonstrated that controlling the potential applied to the working electrode is critical in reducing impurity concentrations. A more positive potential on the working results in purer Si deposited on the counter electrode. With margin of error, the amount of Si deposited on the cathode is almost the same as the amount dissolved from the anode. A nonequilibrium factor which affects impurity concentrations is identified, i.e. contamination.

Keywords

anodes; cathodes; contamination; elemental semiconductors; impurities; refining; silicon; solar cells; Si; SiHCl₃-based process; anode; cathode; contamination identification; counter electrode; impurity concentration reduction; molten salt electrorefining; nonequilibrium factor; potential control; solar cells; working electrode; Anodes; Cathodes; Electric potential; Impurities; Radiation detectors; Silicon; electrorefining; impurity; photovoltaic; silicon;

fLanguage

English

Publisher

ieee

Conference_Titel

Photovoltaic Specialists Conference (PVSC), 2013 IEEE 39th

Conference_Location

Tampa, FL

Type

conf

DOI

10.1109/PVSC.2013.6744200

Filename

6744200