Influence of support electrolytic in the electrodeposition of Cu[sbnd]Ga[sbnd]Se thin films

CuGaSe2 is an important thin film electronic material that possesses several attributes that make it appealing for solar energy conversion. Due to its properties it can be incorporated in to various devices, among the greatest highlights are photovoltaic cells, as well as its potential use as photocathodes for hydrogen production, via the photoelectrolysis. There are several methods of its preparation, most notably electrodeposition that has the potential for large areas and high volumes. Electrodeposition of ternary and/or quaternary semiconductors generally proceeds via the formation of a binary, which is subsequently reacted to form the ternary compound. Several conditions must be controlled to form binary compounds that include the use of complexing agents, buffers, temperature, etc. In this paper, we discuss the effect of anion composition in the electrolytic bath and the type of lithium salts, in order to manipulate the atomic concentration of CuGaSe2 during the electrodeposition of thin films, yielding copper-rich, gallium-rich or stoichiometric thin films. We also present the results of a study on the morphology and structure obtained using two types of substrates both before and after performing a heat treatment. © 2016 Elsevier Ltd

Chalcogenide compounds; Electrodeposition; Thin films Bins; Copper; Electrodeposition; Electrodes; Energy conversion; Field emission cathodes; Hydrogen production; Lithium compounds; Photoelectrochemical cells; Photovoltaic cells; Semiconducting selenium compounds; Solar energy; Atomic concentration; Chalcogenide compound; Electrolytic baths; Morphology and structures; Photoelectrolysis; Quaternary semiconductors; Ternary compounds; Thin film electronics; Thin films

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