We considered modification of the defect density of states in CdTe as influenced
by a buffer layer in ZnO(ZnS, SnSe)/CdS/CdTe solar cells. Compared to the solar
cells employing ZnO buffer layers, implementation of ZnSe and ZnS resulted in
the lower net ionized acceptor concentration and the energy shift of the
dominant deep trap levels to the midgap of CdTe. The results clearly indicated
that the same defect was responsible for the inefficient doping and the
formation of recombination centers in CdTe. This observation can be explained
taking into account the effect of strain on the electronic properties of the
grain boundary interface states in polycrystalline CdTe. In the conditions of
strain, interaction of chlorine with the grain boundary point defects can be
altered.