Inspired by biological systems, materials scientists have long sought to harness self-assembly to build nanomaterials. The ...

Self-assembled systems have potential to be applied in systems where it is desirable to gain fine control over properties, such as in responsive materials. Such systems make use of non-covalent ...

Physicists show that the shape of components is a major determinant of how quickly and efficiently complex structures self-assemble. Physicists at LMU Munich show that the shape of components is a ...

"We wanted to see how far we can take that," Cohen said. "This is the culmination of that work." One of the sticking points in self-assembly systems is just that: The systems often get stuck in ...

When constructing a house, a bricklayer has to take each brick and cement it in place. But in many biological processes, the ‘bricks’ arrange themselves into structures spontaneously. Due to their ...

This review systematically summarizes the research progress in Polyphenol self-assembled drug delivery systems (DDS), with a focused elaboration on their assembly mechanisms, functional advantages ...

In cellular automata, simple rules create elaborate structures. Now researchers can start with the structures and reverse-engineer the rules. Alexander Mordvintsev showed me two clumps of pixels on ...

In a new study published in the Clinical and Translational Medicine, the research group of Prof. Chen-Yu Zhang and Prof. Xi Chen at Nanjing University evaluated the on- and off-target effects of ...

A rapid condensation process creates uniform porous oxides with conductive nanomaterials, boosting lithium storage performance while enabling full solvent recovery and sustainable material production.