NH3 production via N2 reduction using Fe2O3/g-C3N4/Ag photoanode and MoS2 modified GDL cathode

Abstract

The production of NH3 from molecular N2 under mild conditions is one of the most studied topics in the field of chemistry. Photoelectrochemical reduction of N2 can lead to the clean and sustainable production of NH3 with less energy consumption using renewable energy sources such as solar. To date, promising electrocatalysts for the photoelectrochemical reduction of N2 to NH3 at atmospheric pressure and room temperature, using an external potential source and ultraviolet irradiation, is still little explored. Thus, the present project intends to synthesize (±)Fe2O3/g-C3N4/Ag electrocatalysts that will be used as photoanodes in a two-compartment photoelectrochemical cell under potential application and photon irradiation. As a counter electrode, where N2 reduction will occur, GDL (gas diffusion layer) electrodes modified with MoS2 decorated with Fe (MoS2-Fe) will be used. Thus, it is expected that the modifications made to g-C3N4 and GDL allow an increase in the conductivity and surface area of the materials, improving the photoelectrocatalytic activity of these materials. It is noteworthy that the use of a two-compartment cell, separating the electron-directing photoanode from the cathode, favors the separation of photogenerated electrons, making them more available for the reduction of N2 adsorbed on the surface of the cathodes, minimizing the recombination of electron pairs/holes, and increasing NH3 production efficiency. (AU)