Electrochromic performances and photoluminescence characteristics of versatile N-vinylimidazole-based hybrid hydrogels

We report the synthesis and multi-sensitive performances of a novel type of poly(N-vinylimidazole-co-N-methylolacrylamide) (poly(VI-co-NMA)) hydrogels. These hydrogels behave excellent electric-sensitive properties and reversible bending behaviors. The influence of various parameters such as VI concentration, electric voltage, pH, and ionic strength on the electric-sensitive properties was thoroughly investigated. To obtain electrochromic hydrogels, we further prepared colloidal crystal (CC)-loaded hydrogels in which the color of the CC can be tuned by the bending behavior of the hydrogels. Moreover, these as-prepared hydrogels present excellent adsorption performances toward quantum dots, and the photoluminescence (PL) of CdTe-doped poly(VI-co-NMA) hydrogels was investigated. We found that the PL wavelengths of the CdTe-doped hydrogels could be switched reproducibly by altering the process of swelling and deswelling. These multi-functional hydrogels coupling with the characteristics of electrochromism and PL response confer them a variety of potential applications in sensors.