Enhanced photoelectrochemical properties of nanoflower-like hexagonal CdSe_0.6Te_0.4: Effect of electron beam irradiation

Present investigation deals with the effect of electron beam irradiation on the photoelectrochemical properties of cadmium selenium telluride (CdSe_0.6Te_0.4) thin films. Initially, CdSe_0.6Te_0.4 thin films were electrodeposited on fluorine doped tin oxide (FTO) coated glass and stainless steel substrates. Later, these CdSe_0.6Te_0.4 thin films were irradiated with high energy electron beam (10 MeV) of different doses from 10 to 30 kilograys (kGy). The effect of electron beam irradiation on different physico-chemical properties of CdSe_0.6Te_0.4 thin films such as morphological, structural, optical and photoelectrochemical has been investigated. It is observed that, the electron beam irradiation treatment considerably affects the properties of CdSe_0.6Te_0.4 thin films. The surface morphology of CdSe_0.6Te_0.4 thin films was changed from cauliflowers to nanoflowers, nanoroses and interconnected nanoflakes with doses of electron beams. Furthermore, the effect of electron beam irradiation on photoelectrochemical properties of CdSe_0.6Te_0.4 films was investigated. It is interesting to note that, the photoelectrochemical (PEC) properties of CdSe_0.6Te_0.4 thin films are extensively affected by electron beam irradiation. The photoconversion efficiency values of CdSe_0.6Te_0.4 films for different doses of electron beam are found to be 0.9%, 1.1%, 2.0% and 1.5%, respectively.