The dependence of reactively sputtered ZnO electronic properties on growth parameters for use as buffer layers in CuIn/sub x/Ga/sub 1-x/Se/sub 2/ solar cells
R. Bhatt, H. Sankaranarayanan, C. Ferekides, D. Morel
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引用次数: 2
Abstract
High electronic quality undoped ZnO deposited by reactive sputtering has been developed for use as the buffer layer in CuIn/sub x/Ga/sub 1-x/Se/sub 2/ solar cells. Growth mechanisms are shown to differ from those resulting from conventional sputtering with ZnO targets. Film resistivity can be varied from 10/sup -2/ /spl rho/-cm to unmeasurable by variation of the growth parameters. Mobilities of films grown at substrate temperatures of 200/spl deg/C are in the range 25-30 cm/sup 2//V-s. Annealing at 325/spl deg/C increases mobilities to the 35-40 cm/sup 2//V-s range. The resulting resistivity, however, is dominated by the resulting carrier concentration which is controlled by oxygen vacancies. Devices fabricated with reactively sputtered buffer layers have matched the performance of the best literature results.
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