The massive emission of excess greenhouse gases (mainly CO2) have an irreversible
impact on the Earth's ecology. Electrocatalytic CO2 reduction (ECR), a technique that utilizes …

Microbial electrosynthesis (MES), a neoteric technology, has attracted much interest in
recent ten years. This work conducts network analyses in the CO 2 bio-reduction based on …

This work demonstrates and characterizes the use of a bipolar membrane electrodialysis for
pH-driven CO 2 capture and solvent regeneration using potassium hydroxide solutions. The …

Electrochemically responsive materials (ERMs) that respond to external electrical stimuli
offer advanced control over physio-chemical processes with a high degree of tunability and …

The use of one-carbon (C1) feedstocks, including carbon dioxide (CO2), carbon monoxide
(CO), formate (HCO2H), methanol (CH3OH), and methane (CH4), presents a significant …

Energy-efficient capture technologies need to be deployed by 2050 to abate global warming
caused by excessive carbon dioxide (CO 2) emissions. CO 2 capture using alkaline …

Abstract Dual-atoms catalysts (DACs), while inheriting the advantages of maximum atom
utilization ratio and excellent selectivity of single-atom catalysts (SACs), can better enhance …

Novel carbon dioxide removal (CDR) technologies are increasingly being considered as
potentially useful tools to combat climate change. For specific atmospheric carbon dioxide …

This study investigates the electrochemical properties of a family of substituted quinoxaline-
5, 8-diones, in particular 2, 3-diphenylquinoxaline-5, 8-dione (phenylQX), 2, 3-bis (4 …

In addition to drastic reductions in global carbon dioxide emissions, the Intergovernmental
Panel on Climate Change has stated with high confidence that carbon dioxide removal will …