Enzyme catalysis has been increasingly utilized in reversible deactivation radical
polymerization (Enz‐RDRP) on account of its mildness, efficiency, and sustainability. In this …

Molecule self-assembly is a ubiquitous phenomenon and a key driving force for constructing
nanostructures with diverse morphology and controllable size. Recently, interests in …

Biocatalysis is increasingly being explored for the sustainable development of green
industry. Though enzymes show great industrial potential with their high efficiency …

Interest in temperature-responsive polymers has steadily grown over the past several
decades, and numerous studies have been dedicated to develo** temperature sensitive …

Abstract Poly (2-oxazoline) s (POx) are a class of polymers with tremendous potential for
biomedical applications. The straightforward access to side and main chain functionalities …

Polymer capsules, fabricated either with the aid of a sacrificial template or via the self-
assembly of block copolymers into polymer vesicles (polymersomes), have attracted a great …

Due to their 3D cross‐linked networks and tunable physicochemical properties, polymer
hydrogels with different sizes are applied widely in tissue engineering, drug‐delivery …

Therapeutic nanoreactors have been proposed as nanoplatforms to treat diseases through
in situ production of therapeutic agents. When this treatment strategy is applied in cancer …

Reversible-deactivation radical polymerizations (controlled radical polymerizations) have
revolutionized and revitalized the field of polymer synthesis. While enzymes and other …

We describe an innovative strategy to generate catalytic compartments with triggered
functionality at the nanoscale level by combining pH-reversible biovalves and enzyme …