Abstract Carbon dioxide (CO 2) utilization/recycling for the production of chemicals and
gaseous/liquid energy-carriers is a way to moderate the rising CO 2 in the atmosphere. One …

The global atmospheric warming due to increased emissions of carbon dioxide (CO 2) has
attracted great attention in the last two decades. Although different CO 2 capture and storage …

The electrochemical conversion of CO 2 can include renewable surplus electricity storage
and CO 2 utilisation. This review focuses on the microbial CO 2 electrobiorefinery based on …

Reducing the carbon intensity of the chemical industry has become a priority topic. The
conversion of CO 2 through combined electrochemical and microbial processes is an …

Atmospheric carbon dioxide (CO 2) concentrations are currently rising at an unstoppable
rate, and it is urgent to curb this trend for a stable and sustainable atmospheric environment …

The recent concept of microbial electrosynthesis (MES) has evolved as an electricity-driven
production technology for chemicals from low-value carbon dioxide (CO2) using micro …

The applicability of microbial electrosynthesis (MES) for chemical synthesis from carbon
dioxide (CO2) requires improved production and energetic efficiencies. Microbial catalysts …

In the recent decade, CO2 has increasingly been regarded not only as a greenhouse gas
but even more as a chemical feedstock for carbon‐based materials. Different strategies have …

Activation and turning CO 2 into value added products is a promising orientation to address
environmental issues caused by CO 2 emission. Currently, electrocatalysis has a potent well …

Carbon dioxide (CO 2) reduction to multi-carbon compounds at the cathode using
chemolithoautotrophs is an emerging application of microbial electrosynthesis (MES). In this …