Light-responsive MXenegel via interfacial host-guest supramolecular bridging

Light-responsive MXenegel via interfacial host-guest supramolecular bridging

Blog Article

Abstract Living in the global-changing era, intelligent and eco-friendly electronic components that can sense the environment and recycle or reprogram when needed are essential for sustainable development.Compared with solid-state electronics, composite china glaze holee shift hydrogels with multi-functionalities are promising candidates.By bridging the self-assembly of azobenzene-containing supramolecular complexes and MXene nanosheets, we fabricate a MXene-based composite gel, namely MXenegel, with reversible photo-modulated phase behavior.The MXenegel can undergo reversible liquefication and solidification under UV and visible light irradiations, respectively, while maintaining its conductive nature unchanged, which can be integrated into traditional solid-state circuits.

The strategy presented in this work provides an example of light-responsive conducting material via supramolecular bridging and demonstrates an exciting platform 1958 impala continental kit for functional soft electronics.