Sodium Persulfate Pre-treatment of Copper Foils Enabling Homogenous Growth of Cu(OH) Nanoneedle Films for Electrochemical CO Reduction.

Oxide-derived copper (OD-Cu) catalysts have received widespread attention for their ability to produce energy-dense multicarbon products. Within this class of materials, nanostructured copper hydroxide (Cu(OH) ) has shown excellent catalytic properties, but its synthesis requires complex pre-treatment steps of the Cu surface. In this study, we have developed a simple two-step synthesis method for homogenous Cu(OH) nanoneedle films using a sodium persulfate pre-treatment step prior to anodization. The Cu(OH) nanoneedle films show drastically enhanced uniformity after the pre-treatment due to improved current distribution and can be grown over large surface areas (63 cm ). As a catalyst for CO reduction, the Cu(OH) favours ethylene formation, with a near total suppression of methane production. A peak faradaic efficiency (FE) of 36.5 % is found at -1.0 V vs. the reversible hydrogen electrode (RHE), and the catalyst remains stable while providing an ethylene to methane ratio of 27.8 after 6 h of reaction.