Photovoltaic performance of c-Si wafer reclaimed from end-of-life solar cell using various mixing ratios of HF and HNO3

Abstract

This study presents the re-fabrication of a crystalline silicon (c-Si) solar cell using a Si wafer reclaimed from the solar cell of an end-of-life (EoL) module, and an evaluation of its performance. A 6-in. commercial solar cell was used in the etching process by wet chemical process in order to investigate the optimal mixing ratio of a mixture of HNO3 and HF. The silicon nitride (SiNx) and aluminum (Al) back contact on both sides of the solar cell were not completely removed at a high ratio of aqueous HNO3, and the precipitation of Ag particles on the surface of Si wafer were deposited at a high ratio of aqueous HF in a mixed acid solution. The optimum etching condition for the recovery of the c-Si wafer was applied to the EoL module, which consisted of 4″ solar cells. The photovoltaic (PV) performance of the re-fabricated 4″ solar cell was measured by conventional solar cell processing, which shows the best results reported so far. The higher boron (B) concentration and reflectance of the re-fabricated solar cell reduced cell efficiency by 0.6% compared with the commercial 6″ solar cell. However, it has sufficient potential for use in the PV industry.