MIT researchers have developed a new electrochemical approach that could make carbon dioxide capture ...

Carbon capture is an important climate change mitigation strategy, but it faces technological barriers and can be ...

This scheme reveals the distinct morphologies of synthesized Bi-based catalysts and highlights essential strategies to improve performance. Bismuth nanosheets (Bi NSs) exhibit high activity and ...

Chinese Journal of Catalysis is co-sponsored by Dalian Institute of Chemical Physics, Chinese Academy of Sciences and Chinese Chemical Society, and it is currently published by Elsevier group. This ...

The electrochemical carbon dioxide reduction reaction (CO 2 RR) is a promising means of carbon capture and use. The reaction not only removes carbon dioxide from the atmosphere but also transforms it ...

A group of researchers have analyzed thousands of reports from the past decade, identifying a tin-based catalyst that aids the production of formic acid, an indispensable chemical in various ...

Making industrial chemicals like ethylene glycol — a key component in polymer production and familiar to many as antifreeze — consumes large amounts of energy and releases significant carbon dioxide ...

The less carbon dioxide polluting our air, the better. Researchers are investigating non-toxic, low-cost electrocatalysts to turn our sustainability goals into reality. A research team has identified ...

To mitigate global climate change, emissions of the primary culprit, carbon dioxide, must be drastically reduced. A newly developed process helps solve this problem: CO 2 is directly split ...

Stripping seawater of carbon dioxide via electrochemical processes — thereby prompting oceans to draw down more greenhouse gas from the atmosphere — is a geoengineering approach under consideration ...