Investigation of peptide co-assembly under crowded conditions using coarse-grained discontinuous molecular dynamics simulations. Peptides form fibril structures in the presence of hydrophobic crowders.
The co-assembly of nanometer- and submicrometer-sized colloidal particles can result in multi-component superstructures with unique properties.
The inversion of circularly polarized room-temperature phosphorescence and a high dissymmetry factor were achieved in a ternary supramolecular co-assembly system. A temperature-controlled CP-RTP switch and logic gate have been realized.
Sustainable herbicide-loaded nanocarriers with pH-responsiveness, good translocation and herbicidal activity were fabricated using a supramolecular assembly approach.
This review provides an overview of the recent advances in co-assembly systems with circularly polarized luminescence properties based on macromolecules.