Bioelectrocatalysis is an interdisciplinary research field combining biocatalysis and
electrocatalysis via the utilization of materials derived from biological systems as catalysts to …

Hydrogenase is a paradigm of highly efficient biocatalyst for H 2 production and utilization
evolved in nature. A dilemma is that despite the high activity and efficiency expected for …

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

Enzyme catalysis, made tremendous progress over the last years in identification of new
enzymes and new enzymatic reactivity's as well as optimization of existing enzymes …

Polyethylene (PE) and industrial dyes are recalcitrant pollutants calling for the development
of sustainable solutions for their degradation. Laccases have been explored for removal of …

Activation of alkanes can be achieved with different types of catalysts, spanning over
enzymes, homogeneous and heterogeneous metal catalysts. Though a tremendous amount …

Petroleum hydrocarbons are our major energy source and an important feedstock for the
chemical industry. With the exception of combustion, the deep conversion of chemically inert …

In the direct hydroxylation of C–H bonds by cytochrome P450s, their regioselectivities
between primary and secondary carbons depend strongly on their C–H bond-dissociation …

Electrosynthesis is a popular, environmentally friendly substitute for conventional organic
methods. It involves using charge transfer to stimulate chemical reactions through the …

Chemically inert hydrocarbons are the primary feedstocks used in the petrochemical
industry and can be converted into more intricate and valuable chemicals. However, two …