High-efficiency utilization of CO2 facilitates the reduction of CO2 concentration in the global
atmosphere and hence the alleviation of the greenhouse effect. The catalytic hydrogenation …

Electrochemical reduction of CO2 (CO2RR), driven by renewable energy (such as wind and
solar energy), is an effective route toward carbon neutralization. The multicarbon (C2+) …

The efficient electrochemical conversion of CO2 provides a route to fuels and feedstocks.
Copper catalysts are well-known to be selective to multicarbon products, although the role …

Copper-based catalyst is uniquely positioned to catalyze the hydrocarbon formations
through electrochemical CO2 reduction. The catalyst design freedom is limited for alloying …

Abstract Cu–ZnO–Al2O3 catalysts are used as the industrial catalysts for water gas shift
(WGS) and CO hydrogenation to methanol reactions. Herein, via a comprehensive …

Reversible exsolution and dissolution of metal nanoparticles in perovskite has been
investigated as an efficient strategy to improve CO2 electrolysis performance. However …

While extensive research has been conducted on the conversion of CO2 to C1 products, the
synthesis of C2 products still strongly depends on the Cu electrode. One main issue …

Electrochemical CO2 or CO reduction to high-value C2+ liquid fuels is desirable, but its
practical application is challenged by impurities from cogenerated liquid products and …

Understanding the nature of adsorbates and intermediates on catalytic surfaces is critical for
the development of highly efficient systems for CO2 conversion. However, the role of …

In situ exsolution of metal nanoparticles in perovskite under reducing atmosphere is
employed to generate a highly active metal–oxide interface for CO2 electrolysis in a solid …