Microbial electrosynthesis (MES) is an emerging and promising technology for converting
CO 2 into valuable organic compounds, such as, methane, acetate, and alcohols. Though …

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 …

In gas fermentation, a range of chemolithoautotrophs fix single-carbon (C1) gases (CO 2
and CO) when H 2 or other reductants are available. Microbial electrosynthesis (MES) …

Microbial electrochemical approach is an emerging technology for biogas upgrading
through carbon dioxide (CO 2) reduction and biomethane (or value-added products) …

Carbon emissions and demand for industrial chemicals have forced us to synthesize
valuable resources from CO 2 sequestration through bioelectrochemical pathways …

Currently, global annual CO 2 emissions from fossil fuel consumption are extremely high,
surpassing tens of billions of tons, yet our capacity to capture and utilize CO 2 remains …

High-rate production of acetate and other value-added products from the reduction of CO 2
in microbial electrosynthesis (MES) using acetogens can be achieved with high reducing …

A meta-analysis approach was used, to study the microbiomes of biofilms and planktonic
communities underpinning microbial electrosynthesis (MES) cells. High-throughput DNA …

Microbial electrosynthesis (MES) explores the potential of chemolithoautotrophs for the
production of value-added products from CO 2. However, the enrichment of …

In many cases, the repair strategy by using sacrificial anodes for cathodic protection in real
RC structures requires additional zinc anodes after several years due to the decreasing …