Finding sustainable approaches to achieve independence from terrestrial resources is of
pivotal importance for the future of space exploration. This is relevant not only to establish …

Decarbonisation of the economy has become a priority at the global level, and the resulting
legislative pressure is pushing the chemical and energy industries away from fossil fuels …

Hypothesis With increased development and electricity generation, great care to energy
storage systems is crucial to overcome the discontinuity in the renewable production …

The integration of carbon dioxide (CO 2) capture and conversion processes presents an
opportunity to reduce energy and capital costs required to create useful products from dilute …

Microbial electrosynthesis (MES) of acetate is a process using electrical energy to reduce
CO2 to acetic acid in an integrated bioelectrochemical system. MES powered by excess …

Bioelectrocatalytic synthesis is the conversion of electrical energy into value‐added
products using biocatalysts. These methods merge the specificity and selectivity of …

Microbial electrosynthesis (MES) cells use renewable energy to convert carbon dioxide into
valuable chemical products such as methane and acetate, but chemical production rates are …

The electrochemical process of microbial electrosynthesis (MES) is used to drive the
metabolism of electroactive microorganisms for the production of valuable chemicals and …

The efficient delivery of electrochemically in situ produced H2 can be a key advantage of
microbial electrosynthesis over traditional gas fermentation. However, the technical details …

A low-cost cathode catalyst based on a NiMo alloy was examined here to replace noble
metals for the hydrogen production in microbial electrolysis cells (MECs). Two NiMo …