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

The electrochemical reduction of CO2 into value-added chemicals has been explored as a
promising solution to realize carbon neutrality and inhibit global warming. This involves …

The catalytic transformation of CO2 into valuable fuels/chemicals is a promising and
economically profitable process because it offers an alternative toward fossil feedstocks and …

Beyond conventional electrocatalyst engineering, recent studies have unveiled the
effectiveness of manipulating the local reaction environment in enhancing the performance …

Amorphous materials are metastable solids with only short-range order at the atomic scale,
which results from local intermolecular chemical bonding. The lack of long-range order …

CO2 electroreduction is of great significance to reduce CO2 emissions and complete the
carbon cycle. However, the unavoidable carbonate formation and low CO2 utilization …

Large-current electrolysis of CO2 to multi-carbon (C2+) products is critical to realize the
industrial application of CO2 conversion. However, the poor binding strength of* CO …

Electrochemical CO2 reduction to multicarbon products faces challenges of unsatisfactory
selectivity, productivity, and long-term stability. Herein, we demonstrate CO2 …

Copper (Cu) is the only known material that can efficiently electrocatalyze CO2 to value-
added multicarbon products. Owing to the instability of the Cuδ+ state and microscopic …

Performing CO2 reduction in acidic conditions enables high single-pass CO2 conversion
efficiency. However, a faster kinetics of the hydrogen evolution reaction compared to CO2 …