Smart membranes that respond to environmental stimuli are gaining attention because of their potential use in a variety of applications, from drug delivery to water treatment. Their surface characteristics and/or permeation properties, including pressure-driven hydraulic permeability and concentration-driven diffusional permeability, can be adjusted in response to small chemical and/or physical stimuli in the environment. This book will cover topics such as novel design and fabrication strategies, approaches for controlling structure and performance, as well as cutting-edge applications of smart membranes. It will deliver new insights and fundamentals for both professionals and newcomers in related fields. Edited by an internationally renowned expert and with contributions from key researchers, Smart Membranes provides a comprehensive overview of the topic. It will appeal to students and researchers across materials science, chemistry, chemical engineering, pharmaceutical science and biomedical science.
Cuprins
Introduction; Smart Gating Membranes with Responsive Nanogels as Functional Gates; DNA-sandwich Gated Membranes; Magnetically Responsive Membrane; Ion-recognizable Smart Gating Membranes; CO2-responsive Membranes; Solute- and Temperatureresponsive Smart Membranes Formed by Covalent Layer-bylayer Assembly; Smart Membrane in a Microchip; Biomolecule-recognition Smart Gating Membranes; Smart Microcapsule Membranes for Controlled Release; Smart Polymeric Membranes with Magnetic Nanoparticles for Switchable Separation; Artificial Oscillating Membrane Systems; Thermo-responsive Membranes with Switchable Superhydrophilicity and Superhydrophobicity for Oil–Water Separation; Smart Biomedical Membranes for Blood Separation; Summary and Perspectives