This review summarizes the recent progress of supramolecular peptide assemblies, focusing on the molecular design, self-assembly behavior and applications of antibacterial peptide nanostructures.
This review draws connections between top-down direct-ink-writing and bottom-up supramolecular designs. Examples of supramolecularly designed viscoelastic inks and perspectives of using supramolecular motifs for 3D printing have been discussed.
Characteristics and advantages of supramolecular self assembly derived electrode materials and electrolytes for supercapacitors.
This review outlines the construction of functional supramolecular materials via programmable peptide self-assembly and AI-assisted design, shifting from empirical screening to mechanism-driven creation of nanostructures for biological detection.
Supramolecular design principles are emerging as a powerful tool to manipulate organic cathode performance. In this review, we discuss how supramolecular interactions influence electrode behavior.