“…It has an orthorhombic structure at low temperature and undergoes a phase transition to cubic structure at 400 K [3]. It has a wide range of applications such as IR detectors, photovoltaic cells, magnetic resistive sensors, electrochemical potential memory devices, semiconducting optical devices, solid electrolyte in photochargeable batteries, non-linear optical devices, and biological imaging [4][5][6][7][8][9]. Different synthesis methods are available to prepare silver selenide thin films such as chemical bath deposition, adsorption-reduction method, electrodeposition, flash evaporation, vacuum evaporation, and explosive evaporation [3,[10][11][12][13][14][15].…”