A study of the influence of the Ga content on the long-term stability of Cu(In,Ga)Se 2 thin film solar cells

Abstract

We have studied the long-term stability of a set of CuIn 1− x Ga x Se 2 solar cells with different Ga-contents x={0, 0.3, 0.4, 0.5, 0.6, 1} during 800 h of accelerated ageing in both dry and damp heat (DaH) conditions. Device performance has been monitored with quantum efficiency and current–voltage measurements at varying temperatures ( J( V) T ). All samples but that with x=1 are stable in dry heat conditions. After 800 h of DaH exposure, the samples with Ga contents close to 0.4 show the smallest efficiency degradation of approximately 25% relative to their initial performance. The samples with x=0 and x=1 have degraded by approximately 90 and 65%, respectively. Analysis of the J( V) T measurements reveal a blocking behavior and enhancement of a second diode mechanism with high ideality factor, together explaining the loss in the solar cell parameters. We suggest that the second diode be assigned to tunneling-enhanced recombination at the CdS/CIGS interface.