Fabrication of ultrasmall functional machines and their integration within ultrasmall areas or
volumes can be useful for creation of novel technologies. The ultimate goal of the …

Recent breakthroughs in nanotechnology have made various nanostructured materials
more affordable for a broader range of applications. Although we are still at the beginning of …

Nanozymes mimic enzymes and that includes their selectivity. To achieve selectivity,
significant inspiration for nanoparticle design can come from the geometric and molecular …

In the last decade, new trends for enzyme attachment to solid carriers have emerged in an
attempt to rationalize the classical methods for enzyme immobilization. In silico analysis is …

Artificial multienzyme scaffolds are being developed for in vitro cascaded biocatalytic activity
and, in particular, accessing substrate channeling. This review covers progress in this field …

Various enzymes are encapsulated in ordered mesoporous silica analogous to a fish in a
net, where the enzymes are entrapped in macroporous cages that are connected by uniform …

Artificial organelles are compartmentalized nanoreactors, in which enzymes or enzyme‐
mimic catalysts exhibit cascade catalytic activities to mimic the functions of natural …

Enzymes are the prime protagonists in the chemistry of living organisms. As such, chemists
and biologists have long been fascinated by the array of highly selective transformations …

Enzymes are used as biocatalysts in a vast range of industrial applications. Immobilization of
enzymes to solid supports or their self-assembly into insoluble particles enhances their …

Enzymes are nanometer-sized molecules with three-dimensional structures created by the
folding and self-assembly of polymeric chain-like components through supramolecular …