Smart membranes - Shaping next generation of membrane materials: A review

Membrane technology has undergone significant advancements, leading to the emergence of smart membranes with tunable separation capabilities. These membranes possess switchable properties that respond to external stimuli, enabling precise and efficient separation in diverse environments. This review presents a comprehensive overview of smart membranes, discussing their significance, evolution, and functional mechanisms. Various smart membrane applications, including self-cleaning, detection, smart-sensing, seawater desalination, anti-pollution, and wastewater treatment, are explored. Additionally, this paper explores into the fabrication methods and characteristics of smart membranes and multi-stimuli membranes, highlighting their responses to pH, temperature, light, gas, piezo-electric, and electrochemical. The integration of responsive materials into membranes has resulted in significant improvements in selectivity, mechanical stability, permeability, and fouling resistance, ultimately enhancing their efficiency in complex separation processes. A deeper understanding of smart membranes and their capabilities will drive the development of innovative, high-performance membranes tailored for next-generation industrial and environmental applications.