Smart hydrogel catalyst with tunable activity for 4-nitrophenol reduction at different temperatures and pH

Abstract

In this study, a novel method is introduced for preparing the poly (N-isopropylacrylamideco-methacrylic acid) (PNIPAM) hydrogel catalyst (PNMC-Ag) with embedded silver nanoparticles (Ag NPs), by employing in situ reduction of Ag+ in polymeric network. The prepared hydrogel catalyst exhibits both thermal and pH responsiveness, facilitating precise control of catalytic efficiency in reducing pollutants such as 4-nitrophenol (4-NP) under varying environmental conditions. The embedded Ag NPs demonstrate remarkable stability against self-aggregation due to their confinement within the polymeric network, thus maintaining their exceptional catalytic performance over time. Leveraging the dual-responsive nature of the PNMC-Ag catalyst, tunable catalytic activity can be achieved by adjusting the temperature and pH of the reaction environment. Specifically, the Ag NPs-hydrogel catalyst exhibits high catalytic activity (21 min, 98.5%) in low-temperature ([Formula: see text]< 32°C) at neutral pH and alkaline (pH = 9) conditions at room temperature, while its activity is attenuated in high-temperature ([Formula: see text]> 32°C) at neutral pH or acidic (pH [Formula: see text]4) environments at room temperature owing to the hydrogel’s thermal and pH-responsive characteristics. This distinctive feature enables precise control over the catalytic reaction, offering an effective approach for the removal of 4-NP from wastewater using a noble-metal-containing stimuli-responsive hydrogel (SRH) catalyst. Overall, this work represents a significant step towards the development of intelligent catalytic materials with superior environmental remediation capabilities.