Qing Wan

TL;DR: In this paper, high water dispersible nanomaterials have been fabricated for the first time through host-guest interactions between adamantane and β-cyclodextrin (β-CD).

TL;DR: Biological evaluation results suggest that the PEG-poly(Phe-alc) FPNs possess excellent biocompatibility and can be used for tracing their behavior in cells using confocal laser scanning microscope, which makes them promising candidates for many biomedical applications, such as cell imaging, drug delivery vehicles, and targeted tracing.

TL;DR: A novel strategy has been developed for the preparation of biodegradable AIE-active polyurethanes (PUs) through a two-step polymerization, in which the diisocyanate-terminated polyethylene glycol was synthesized and subsequently conjugated with diamine-containing AIE dye.

TL;DR: It is reported for the first time that amphiphilic polymers containing a hydrophobic AIE dye and a Hydrophilic poly(ethylene glycol) (PEG) segment can be facilely fabricated based on a Mannich reaction, which could conjugate the phenol hydroxyl-containingAIE dye (PhE-OH), paraformaldehyde and 4-arm poly( methylene gly col)amine (4-arm PEG-NH2) in

TL;DR: A one-pot strategy for preparation of branched AIE-active FNPs through the formation of dynamic phenyl borate is developed and the resultant H40-star-mPEG-PhB(OH)2 FNPs should be promising biomaterials for different applications for biodegradability of H40 and responsiveness of phenylborate.