Dramatically increased CO2 concentration from several point sources is perceived to cause
severe greenhouse effect towards the serious ongoing global warming with associated …

Selective CO2 reduction to formic acid or formate is the most technologically and
economically viable approach to realize electrochemical CO2 valorization. Main group metal …

The renewable‐electricity‐driven CO2 reduction to formic acid would contribute to
establishing a carbon‐neutral society. The current catalyst suffers from limited activity and …

The electrochemical reduction of CO2 stores intermittent renewable energy in valuable raw
materials, such as chemicals and transportation fuels, while minimizing carbon emissions …

The surface and interfaces of heterogeneous catalysts are essential to their performance as
they are often considered to be active sites for catalytic reactions. With the development of …

Formic acid (or formate) is suggested to be one of the most economically viable products
from electrochemical carbon dioxide reduction. However, its commercial viability hinges on …

Electroreduction of carbon dioxide (CO2) into high‐value and readily collectable liquid
products is vital but remains a substantial challenge due to the lack of highly efficient and …

Electrochemical CO2 reduction (CO2R) is one of several promising strategies to mitigate
CO2 emissions. Electrochemical processes operate at mild conditions, can be tuned to …

Electrochemical reduction of CO2 to valuable fuels is appealing for CO2 fixation and energy
storage. However, the development of electrocatalysts with high activity and selectivity in a …

Electrocatalytic carbon dioxide reduction to formate is desirable but challenging. Current
attention is mostly focused on tin-based materials, which, unfortunately, often suffer from …