p-Cu^sub 2^O/n-ZnO heterojunction applied to visible light Orange II degradation

The p-Cu...O/n-ZnO system is studied for its potential use as a photoactive heterojunction able to highly perform under visible light. The main application deals with the degradation of organic dyes such as Orange II and the effects of ... amount, Orange II concentration and light intensity are investigated. Results show that the kinetics of degradation follows a pseudo-first order and the optimum sensitization effect is obtained using a 70% concentration of ... The degradation rate reaches its maximum (... = 22.45 x 10... mg l... min...) at 15 mg l... of Orange II. The effect of the irradiation intensity is also investigated taking the electrical energy consumption per order of magnitude (EE/O) as a figure of merit. The highest efficiency is obtained at an irradiation intensity of ... 122 x 10... kW with kOBS = 14.97 x 10... min... and EE/O, which corresponds to 12.54 kW h m... of energy consumption. This heterojunction allows a ... 25% saving of electrical energy in comparison to the p-Cu...O/n-TiO... system, demonstrating the important role of the collector. (ProQuest: ... denotes formulae/symbols omitted.)