Metals (Sep 2017)

Novel Recycling Method for Boron Removal from Silicon by Thermal Plasma Treatment Coupled with Steam and Hydrogen Gases

  • Su-Hyun Baek,
  • Hyunjae Lee,
  • Dong-Joon Min,
  • Su-Ji Choi,
  • Byung-Moon Moon,
  • Hyun-Do Jung

DOI
https://doi.org/10.3390/met7100401
Journal volume & issue
Vol. 7, no. 10
p. 401

Abstract

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Boron (B) separation from photovoltaic silicon (Si) remains a research challenge in the recycling field. In this study, a novel B-removal process was developed using thermal plasma treatment coupled with steam and hydrogen gases. Experiments were performed on artificially B-doped Si using various plasma conditions of mixed argon (Ar)/steam/hydrogen gases and varied refining time. The B concentration in all of the samples decreased with increasing refining time. The use of the plasma mixed with Ar/steam/hydrogen gases resulted in a significant improvement of the efficiency of B removal compared with the Ar/steam plasma refining. In addition, with increasing steam content in the plasma with mixed Ar/steam/hydrogen gases, the B-removal rates increased.

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