Electrochemical reduction of gaseous feeds such as CO2, CO, and N2 holds promise for
sustainable energy and chemical production. Practical application of this technology is …

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 …

Recycling CO 2 into organic products through microbial electrosynthesis (MES) is attractive
from the perspective of circular bioeconomy. However, several challenges need to be …

The valorization of CO 2 to valuable products via microbial electrosynthesis (MES) is a
technology transcending the disciplines of microbiology,(electro) chemistry, and …

Water shortage, public health and environmental protection are key motives to treat
wastewater. The widespread adoption of wastewater as a resource depends upon …

Carbon-rich waste materials (solid, liquid, or gaseous) are largely considered to be a burden
on society due to the large capital and energy costs for their treatment and disposal …

The recycling and treatment of wastewater using microbial fuel cells (MFCs) has been
attracting significant attention as a way to control energy crises and water pollution …

Electrochemically active bacteria can transport their metabolically generated electrons to
anodes, or accept electrons from cathodes to synthesize high‐value chemicals and fuels, via …

Sanitation is the basic quality index of life and proper sanitation practices play a vital role in
maintaining the hygienic conditions. Use of human waste (urine and faeces) as a substrate …

In the past several years, biological fuel cells (BFCs) have become an explorable
technology that attained the status of current research activities amongst researchers …