Handedness‐Inverted and Stimuli‐Responsive Circularly Polarized Luminescent Nano/Micromaterials Through Pathway‐Dependent Chiral Supramolecular Polymorphism

Abstract

AbstractThe precise manipulation of supramolecular polymorphs has been widely applied to control the morphologies and functions of self‐assemblies, but is rarely utilized for the fabrication of circularly polarized luminescence (CPL) materials with tailored properties. Here, this work reports that an amphiphilic naphthalene‐histidine compound (NIHis) readily self‐assembled into distinct chiral nanostructures through pathway‐dependent supramolecular polymorphism, which shows opposite and multistimuli responsive CPL signals. Specifically, NIHis display assembly‐induced CPL from the polymorphic keto tautomer, which become predominant during enol‐keto tautomerization shifting controlled by a bulk solvent effect. Interestingly, chiral polymorphs of nanofiber and microbelt with inverted CPL signals can be prepared from the same NIHis monomer in exactly the same solvent compositions and concentrations by only changing the temperature. The tunable CPL performance of the solid microbelts is realized under multi external physical or chemical stimuli including grinding, acid fuming, and heating. In particular, an emission color and CPL on–off switch based on the microbelt polymorph by reversible heating–cooling protocol is developed. This work brings a new approach for developing smart CPL materials via supramolecular polymorphism engineering.