Temperature and pH Responsive Light-Harvesting System Based on AIE-Active Microgel for Cell Imaging

A highly emissive microgel is synthesized by polymerizing tetraphenylethene (TPE) based comonomers, acrylic acid, NIPAM, and permanent crosslinker ethylenebisacrylamide (BIS) (named as TPE microgel), which exhibited temperature responsive fluorescence emission. Rhodamine B (RhB), a positively charged molecule, is then inserted onto the surface of fabricated microgels through electrostatic interaction. As a result, a novel artificial light harvesting system with high energy transfer efficiency is constructed (named as TPE microgel-RhB light harvesting system), which is the first light harvesting system based on TPE microgels presenting dual response to pH and temperature. MTT assay indicates the fabricated TPE microgel and TPE microgel-RhB light harvesting system has good cytocompatibility. The strong fluorescence and good cytocompatibility make them perfect candidates for cell imaging. The prepared emissive microgel and light-harvesting system with desirable fluorescent property not only provide a new strategy for the fabrication of tunable luminescent nanomaterials, but also expand potential applications in the fields of stomach recognition, temperature sensors, and drug delivery.

Automated summary

A highly emissive microgel with temperature responsive fluorescence emission was synthesized, and a novel artificial light harvesting system with high energy transfer efficiency was constructed by inserting Rhodamine B onto the microgels surface. Both the microgel and light-harvesting system showed good cytocompatibility, making them ideal candidates for cell imaging. This provides a new strategy for tunable luminescent nanomaterials fabrication and expands potential applications in fields such as stomach recognition, temperature sensors, and drug delivery.