Title :
Stoichiometric control via periods of open-circuit during electrodeposition
Author :
Newell, M. Jason ; Mughal, Maqsood Ali ; Vangilder, Joshua ; Thapa, Suman ; Wood, K. ; Hoke, Steven A. ; Kardas, Clay ; Johnson, J.B. ; Ross Carroll, B. ; Engelken, Robert
Author_Institution :
Arkansas State Univ., Jonesboro, AR, USA
Abstract :
Electrodeposition can enable stoichiometric control of deposited samples through variation of electroplating potential. We demonstrate an in-situ technique for deposit analysis and stoichiometric control by interspersing periods of open-circuit during deposition. Opening the circuit in an organic Cu-In-S plating bath allows greater incorporation of Cu, In, and/or S into deposited films, based upon the open-circuit voltage the film/electrolyte interface is allowed to achieve. With the same deposition potential, samples can be made to vary from highly Cu-rich to highly In-rich through selection of an appropriate open-circuit voltage limit.
Keywords :
copper compounds; electrolytes; electroplating; indium compounds; semiconductor growth; semiconductor thin films; stoichiometry; ternary semiconductors; CuInS2; electrodeposition; electroplating potential; film-electrolyte interface; open-circuit periods; open-circuit voltage limit; organic plating bath; stoichiometric control; Electric potential; Films; Indium; Photovoltaic systems; Production; CIS; CuInS2; chalcogenide; electrodeposition; in-situ; open-circuit; stoichiometry;
Conference_Titel :
Photovoltaic Specialist Conference (PVSC), 2014 IEEE 40th
Conference_Location :
Denver, CO
DOI :
10.1109/PVSC.2014.6925238
