LAUSR

Composite copper oxide–copper bromide films were electrodeposited on gas diffusion layer (GDL) supports under controlled potential from aqueous copper salt solutions in the presence of a complexing/surfactant agent such as lactate. The solution pH was adjusted to target simultaneous deposition of cubic nanostructures composed of copper, oxygen, and bromine elements. The film composition and morphology were carefully tuned for enhanced electrochemical conversion of CO 2 to hydrocarbons. Hydrocarbon products, predominantly ethylene and minor amounts of methane, ethane, and propylene were observed along with inevitable H 2 co-generation. Importantly, CO gas was not detected during CO 2 electrolyses. Low temperatures (3–5 °C) enhanced the conversion of CO intermediate to C 2 H 4 . The durability and electroactivity of these composite films were maintained for extended periods (up to 10 h) of CO 2 electrolysis by periodic in situ application of anodic pulses to regenerate the cathode surface.