Living crystallization-driven self-assembly (CDSA) has emerged as a technique that is able
to perform solution phase self-assembly of semi-crystalline block copolymers in a controlled …

This in-depth review covers progress in the area of polyferrocenylsilanes (PFS), a well-
established, readily accessible class of main chain organosilicon metallopolymer consisting …

This Perspective outlines recent advances concerning the formation and potential uses of
block copolymer micelles, a class of soft-matter-based nanoparticles of growing importance …

Recent advances in the self-assembly of block copolymers have enabled the precise
fabrication of hierarchical nanostructures using low-cost solution-phase protocols. However …

The fabrication of monodisperse nanostructures of highly controlled size and morphology
with spatially distinct functional regions is a current area of high interest in materials science …

2D materials such as graphene, LAPONITE® clays or molybdenum disulfide nanosheets are
of extremely high interest to the materials community as a result of their high surface area …

Self-assembly of block copolymers (BCP) into uniform 3D structures in solution is an
extremely rare phenomenon. Furthermore, the investigation of general prerequisites for …

Fiber-like micelles based on biodegradable and biocompatible polymers exhibit
considerable promise for applications in nanomedicine, but until recently no convenient …

The creation of synthetic 2D materials represents an attractive challenge that is ultimately
driven by their prospective uses in, for example, electronics, biomedicine, catalysis, sensing …

A wide range of biorelevant applications, particularly in pharmaceutical formulations and the
food and cosmetic industries, require the stabilization of two water-soluble blended …