Enzyme catalysis enables complex biotransformation to be imitated. This biomimetic
approach allows for the application of enzymes in a variety of catalytic processes …

Enzymatic immobilization has been at the forefront of applied biocatalysis as it enables
convenient isolation and reuse of the catalyst if the target reaction is conducted in batch, and …

Highlights•Enzyme immobilization is a key enabling technology for flow
biocatalysis.•Materials and immobilization protocols need to be adapted for continuous …

The cooperation of biocatalysis and chemocatalysis in a catalytic cascade reaction has
received extensive attention in recent years, whereas its practical applications are still …

This study presents a novel ″3-in-1 ″hybrid biocatalyst design that combines the individual
efficiency of microorganisms while avoiding negative interactions between them. Yeast cells …

The synergistic combination of current biotechnological and nanotechnological research
has turned to multienzyme co-immobilization as a promising concept to design biocatalysis …

The bottom-up assembly of biomimetic multicompartmentalized microreactors for use in
continuous flow catalysis remains a grand challenge because of the structural instability or …

A robust Pickering emulsion stabilized by lipase-immobilized alginate gel microparticles with
a coating of silanized titania nanoparticles is developed for biphasic biocatalysis. The good …

Continuous-flow technologies are becoming increasingly relevant in the chemistry field. The
vast arrays of reactor design, in terms of structural geometry, mixing, and residence time, the …

The development of process steps catalyzed by immobilized enzymes usually encompasses
the screening of enzyme variants, as well as the optimization of immobilization protocols and …