Band engineered Al-rich InA1N thin films as a promising photoanode for hydrogen generation from solar water splitting

In this study, Al-rich InAIN thin films were grown at different substrate temperatures (T-s) by plasma-assisted dual source reactive evaporation and effects of the parameter on indium incorporation, morphology, structural and optical properties of the alloys were investigated. It was shown that indium content of the films increases at higher substrate temperature and the bandgap is decreased from 3.54 to 2.76 eV as T-s increases from 150 degrees to 400 degrees C, respectively. The photoelectrochemical (PEC) activity of the deposited films targeted for solar water splitting application was examined in the presence of simulated solar irradiation of AM 1.5 G (100 mW/cm2). The PEC measurements revealed a massive improvement in the photocurrent density for the InAIN sample deposited at T-s = 400 degrees C compared with the films grown at 150 degrees C. From the Mott-Schottky (MS) plots it was concluded that by increasing T, up to 400 degrees C, charge transport during PEC process could be facilitated. It was shown that Al-rich InAIN with selected band gap and band alignments could be a potential candidate for PEC water splitting.