Improvement of the electrical properties of the frontal contact in CdS/CdTe solar cells

The use of a high resistivity transparent oxides (HRT) onto low resistivity transparent oxides (TCO) has been found to improve the performance of CdS/CdTe solar cells. In this work is presented and discussed a study about the use of a commercial conductive glass with SnO₂:F as TCO and SnO₂ as resistive transparent oxide as front contact in CdS/CdTe solar cells. The SnO₂ was deposited by pneumatic spray pyrolysis and its electrical and optical properties were controlled and optimized by varying the substrate temperature and deposition time with the application of a post thermal treatment in O₂ atmosphere. The transfer length method (TLM) was implemented to characterize electrically the SnO₂:F/SnO₂ as well the SnO₂/CdS and SnO₂:F/SnO₂/CdS interfaces through the resistivity and specific contact resistivity measurements and their dependence on O₂ treatment were analyzed. The use of the TCO/buffer layer on the CdS/CdTe solar cell in combination with the thermal treatment proposed in this work for TCO and HRT reduced the front contact/CdS contact resistance in a 10 factor and the solar cell efficiency was improved from 6.4% to 12.2%.