Reduction of COsub 2 to Ethylene at Three-Phase Interface Effects of Electrode Substrate and Catalytic Coating

Effects of electrode substrate and catalytic coating on the electrochemical reduction of to ethylene at a three-phase interface have been investigated and the reduction scheme examined on the basis of the results of in situ Fourier transform infrared (FTIR) studies. The electrolysis of at a negative constant potential is carried out with copper-, silver-, Monel metal-, and stainless-mesh electrodes in a concentrated halide solution, and the generation of is not observed at all except on a pure Cu electrode. However, the fixation of copper(I) halide onto the other three substrates leads to the formation of with considerable current efficiencies, and it is demonstrated that copper(I) halide works as an active catalyst for the selective conversion of to independently of the nature of substrate. The following scheme is proposed for the electrochemical reduction of to based on the in situ FTIR spectra: is first reduced to carboxylic acid by one-electron reaction, the "side-on" type intermediate is then formed by the protonation, C–O bond cleavages, and C–C bond formation of this acid, and it is finally converted to .