Title :
CZTS monograin membranes for photoelectrochemical fuel production modifications for fuel production
Author :
Kouhiisfahani, E. ; Samieipour, A. ; Morawietz, T. ; Kraut, Jurgen ; Hiesgen, R. ; Meissner, D.
Author_Institution :
Tallinn Univ. of Technol., Tallinn, Estonia
Abstract :
The paper reports first results of research aiming at the preparation of ionically conductive monograin membranes for photoelectrochemical solar energy storage. Polyurethane and PFSA solutions have been mixed to prepare composite membranes which in it´s polyurethane part allow for the fixation of semiconductor single crystalline grains, while the PFSA component should allow for the establishment of ionically conductive pathways for ions through the membranes. This goal was achieved at least partly as is demonstrated by the conductivity results obtained. Although, the membranes change considerably with respect to their mechanical appearance.
Keywords :
composite materials; copper compounds; fuel processing; membranes; photoelectrochemistry; tin compounds; zinc compounds; CZTS monograin membranes; CuZnSn; PFSA component; PFSA solutions; composite membranes; conductive pathways; conductivity; fuel production; ionically conductive monograin membranes; photoelectrochemical fuel production modifications; photoelectrochemical solar energy storage; polyurethane; semiconductor single crystalline grains; Conductivity; Fuels; Hydrogen; Impedance measurement; Microscopy; Polymers; Production; CZTS; Composite; Ionic Conductivity; Nafion; Polyurethane; Solar Energy; Water Splitting;
Conference_Titel :
Clean Electrical Power (ICCEP), 2015 International Conference on
Conference_Location :
Taormina
DOI :
10.1109/ICCEP.2015.7177627
