Nanostructured Zwitterionic Membranes: Harnessing Temperature-Responsive Microgels for Tunable Water Filtration and Molecular Separation

Abstract: Microgels have emerged as promising building blocks for constructing porous membranes due to their soft, porous, responsive, and functional nature. In this work, we describe the fabrication of a versatile zwitterionic microgel-based membrane, comprising poly(N-isopropylacrylamide-co-N-(Acryloyloxy)succinimide) (poly(NIPAm-co-NAS)) microgels covalently cross-linked with zwitterionic N,N,N-tris(2-aminoethyl)-3sulfo-1-propanaminium salt (TRIPS) through a nucleophilic reaction between the succinimidyl ester group … Show more

“…Stimuli-responsive channels, capable of responding to environmental stimuli like light, , mechanical strain, ionic strength, , electric field, pH, − and temperature, , have gained attention in various fields such as biochemical sensors, drug delivery, energy conversion, and controlled mass transport. − Smart membranes with selectable separation have recently sparked interest in water treatment. − …”

Bioinspired MXene Membranes with pH-Responsive Channels for High-Performance Water Purification

“…Stimuli-responsive channels, capable of responding to environmental stimuli like light, , mechanical strain, ionic strength, , electric field, pH, − and temperature, , have gained attention in various fields such as biochemical sensors, drug delivery, energy conversion, and controlled mass transport. − Smart membranes with selectable separation have recently sparked interest in water treatment. − …”

Bioinspired MXene Membranes with pH-Responsive Channels for High-Performance Water Purification