Electrosynthesis of value-added chemicals, directly from CO2, could foster achievement of
carbon neutral through an alternative electrical approach to the energy-intensive …

The electrocatalytic reduction of CO2 with H2O to multi-carbon (C2+) compounds, in
particular, C2+ olefins and oxygenates, which have versatile applications in the chemical …

Renewable electricity-powered CO2 reduction to multi-carbon (C2+) products offers a
promising route to realization of low-carbon-footprint fuels and chemicals. However, a major …

The electrochemical CO 2 reduction reaction to produce multi-carbon (C 2+) hydrocarbons
or oxygenate compounds is a promising route to obtain a renewable fuel of high energy …

Tuning catalyst microenvironments by electrolytes and organic modifications is effective in
improving CO2 electrolysis performance. An alternative way is to use mixed CO/CO2 feeds …

An ampere-level current density of CO2 electrolysis is critical to realize the industrial
production of multicarbon (C2+) fuels. However, under such a large current density, the poor …

CO2 electrolysis converting CO2 into valuable fuels and chemicals powered by renewable
electricity shows great promise for practical applications. However, it suffers from low energy …

Electrochemical CO2 reduction provides a promising route to the sustainable generation of
valuable chemicals and fuels. Tandem catalysts enable sequential CO2-to-CO and CO-to …

The mechanism of how interfacial wettability impacts the CO2 electroreduction pathways to
ethylene and ethanol remains unclear. This paper describes the design and realization of …

Electrocatalysts with single metal atoms as active sites have received increasing attention
owing to their high atomic utilization efficiency and exotic catalytic activity and selectivity …