Membrane technology has received great popularity in many industrial sectors and significantly enhanced our abilities to restructure production processes, protect the environment and public health, and provide competitive strategies for separation and purification. However, the need for sustainable development has imposed new targets for this technology, such as more effective/precise separation and stricter admissible limits for the discharge of contaminants into the environment.
Focusing on hot topic environment-related applications, Advances in Functional Separation Membranes introduces emerging membranes nanoengineered with attractive functions and discusses their key features. It also provides a comprehensive guide to various design strategies for such functional membranes, making it useful reference for environmental chemists and membrane engineers alike.
Содержание
Introduction to Functional Membranes; Catalytic Membranes for Aqueous Contaminant Degradation and Separation; Electromembranes for Water Treatment Driven by Electricity; Advanced Membranes Functionalized with Carbon-based 2D Nanomaterials for Liquid Separation; Advanced Membranes Functionalized with Non-carbon-based 2D Nanomaterials for Liquid Separation; Mixed Matrix Membranes (MMMs) for Gas Separation; Applications of Ionic Liquid-based Materials in Membrane-based Gas Separation; Omniphobic Membranes: Fundamentals, Materials, and Applications; Harnessing Janus Properties Towards Novel Membrane Applications; Supramolecular Membranes for Liquid Separation; 3D Printed Functional Membranes for Water Purification; Functional Membranes for Air Purification
Об авторе
Dr Shuaifei Zhao is a membrane scientist with more than 10-year R & D experience in various membrane materials and processes. He received his Ph D from the University of South Australia in 2012. He has worked in several world-leading membrane research teams at Nanyang Technical University, Zhejiang University, Nanjing Tech University, CSIRO, Kobe University and Deakin University. His research interest covers osmotically-driven, pressure-driven, and thermal-driven membranes and processes for environmental and energy applications, such as water treatment, carbon capture and energy generation/recovery. He has published over 72 international journal papers in the fields of chemical engineering, environmental engineering, materials science, and engineering.