Abstract
Molybdenum oxide compounds exhibit unique electrical and optical properties depending on oxygen vacancy concentration and composition and therefore, have recently attracted a lot of attention as a hole transport layer in various devices.In this work CdTe solar cells in substrate configuration were grown with evaporated MoOx back contact buffer layers and efficiencies of up to 10% could be achieved without using Cu in the back contact processing. The buffer layer – at the CdTe/back contact interface – in the finished cell was found to consist of MoO2 phase instead of the expected MoO3 phase as observed in as-deposited or annealed MoOx layers without CdTe deposition.In order to obtain MoOx buffer layers with desired stoichiometry, MoOx thin films were deposited by radio-frequency sputtering under different growth conditions. The chemical phase, composition, microstructure and optical properties of such layers were studied for their possible use in CdTe solar cells.
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