International Journal of Hydrogen Energy, Vol.38, No.1, 36-44, 2013
Fabrication of large area nanorod like structured CdS photoanode for solar H-2 generation using spray pyrolysis technique
Large area nanorod like structured CdS films (9 x 9 cm(2)) were deposited on the FTO glass substrate using simple and economic spray pyrolysis deposition technique for photo-electrochemical (PEC) hydrogen production. With an intention of electrode scaling-up, the deposition area of photoanode was varied to evaluate its effect on the PEC hydrogen generation capability. High photocurrent of 5 mA has been achieved from the PEC active area of 37.5 cm(2). Its unit area (1 cm(2)) counterpart yielded Solar-to-Hydrogen (STH) conversion efficiency of 0.20% at a bias of 0.2 V vs Ag/AgCl using sacrificial reagents under solar simulator (AM1.5) with 80 mW/cm(2) irradiance. The 500 nm thick film exhibiting uniformly distributed nano-rod features yielded 3-times more photocurrent, as well as hydrogen evolution than other films. It exhibited an enhanced photo-activity as indicated by the higher IPCE values (5-9%) in the wavelength range of 450-550 nm. It exhibited superior optical properties (E-g similar to 2.4 eV), and formation of high crystallinity hexagonal CdS phase with space group P63MC. The superior performance of the photoanode is attributed to the nanostructured morphology acquired under optimized spray pyrolysis conditions. Large area photoanodes showed unaltered photo-activity indicating the homogeneity in the film properties even in scaled-up version. Copyright (C) 2012, Hydrogen Energy Publications, LLC. Published by Elsevier Ltd. All tights reserved.
Keywords:Nanostructure;Photoelectrochemical hydrogen;Large area;Solar-to-hydrogen;Solar energy;Spray pyrolysis film deposition