Multi-stimuli-responsive hydrogels for pH detection and switchable color changing applications

Convenient preparation of smart hydrogels that can respond to multiple external stimuli is of great significance to both life science and material science and remains a challenge. This study proposed a simple free radical polymerization method by using a new N-allyl spiropyran, N-isopropylacrylamide (NIPAAm) and acrylic acid (AA) as monomers to prepare multi-responsive hydrogels with anti-freezing feature. The new spiropyran monomer was photochromic and solvatochromic and could be used to distinguish common organic solvents by the naked eye. Hydrogels based on the copolymer p(NIPAAm-co-SP) prepared from the spiropyran and NIPAAm exhibited multiple photo-switchable color changing patterns, providing potential for applications in advanced information encryption, anti-counterfeiting, self-erasing and display/storage devices. Both the spiropyran monomer and p(NIPAAm-co-SP) hydrogels displayed pH-responsive behavior and could be used as a convenient colorimetric pH sensor for rapid detection and monitoring of multiple pH scales of pH 1.0–3.0, 4.0, 5.0–11.0 and 12.0–13.0. The temperature-responsive color change of the hydrogels based on the terpolymer p(NIPAAm-co-SP-co-AA) could be tuned effectively by adjusting the polymerization solvent and AA content. The study contributed a new strategy for construction of multi-responsive hydrogels with potential applications in the fields of photoswitches, environmental monitoring, and smart materials.