Electrochromic Behavior of Molybdenum Trioxide Thin Films, Prepared by Thermal Oxidation of Electrodeposited Molybdenum Trisulfide, in Mixtures of Nonaqueous and Aqueous Electrolytes

Abstract

Electrochromic molybdenum trioxide thin films were prepared by thermal oxidation in air of electrodeposited molybdenum trisulfide. , prepared at temperatures ranging from 400 to 550°C were found to be polycrystalline. The best electrochromic properties (coloration efficiency and coloration time) evaluated in 1 M /propylene carbonate were observed for films prepared by annealing at 425°C for 10 min. The coloration efficiency (35 cm2/C) for these optimum films compare well with those reported in the literature. The intensity of coloration of the film (absorbance at 634 nm) was found to scale linearly with film thickness. The electrochemical reduction of involves the transformation of species to , evidenced by x‐ray photoelectron spectroscopy. The stability of molybdenum trioxide‐coated tin oxide electrodes upon cycling and switching between oxidized and reduced states was investigated by cyclic voltammetry, potential‐step experiments, and in situ spectroelectrochemistry. The results indicate that the stability of the molybdenum trioxide electrode is improved when it is used in a 0.1 M , 14 mM , 2% solution rather than in a pure, nonaqueous electrolyte such as 0.1 M . The improved stability is related to the fact that the chemical disorder induced by cycling the electrode in the protic media is much less severe than in the aprotic media, primarily because while are intercalated in the latter, only protons are intercalated in the aqueous/nonaqueous mixture.