Analysis of electrical parameters in heterojunctions based on poly 3-octylthiophene and cadmium sulfide thin films

Abstract

Planar hybrid heterojunctions were built with poly 3-octylthiophene (P3OT) and chemical bath-deposited cadmium sulfide (CdS) thin films on a conductive glass substrate. The organic material, P3OT, acts as a light absorber and the inorganic one, CdS, as the electron acceptor. Two types of CdS films had been used: one is as-deposited and the other doped with HgCl 2 . Heterojunctions were formed by casting a chemically synthesized P3OT solution onto CdS films. The P3OT film thickness was also varied for heterojunction studies. Current vs. potential ( I – V ) characterizations under dark and illumination conditions were performed for the P3OT/CdS heterojunctions under 88 mW/cm 2 irradiance level, which show photovoltaic effect with different open circuit voltage ( V OC ) levels, being as high as 1 V for some devices. A parametric analysis of I – V curves details the effect of CdS resistivity and P3OT film thickness on series and shunt resistance of the heterojunctions.