- ホーム
- > 洋書
- > 英文書
- > Science / Mathematics
Full Description
The exploration of new-family desalination techniques has become increasingly important in recent decades. Capacitive deionization (CDI) has attracted multidisciplinary interest as a promising alternative to the conventional desalination techniques of reverse osmosis and electro-osmosis, due to several attractive features such as low energy consumption, environmental friendliness, and high water utilization efficiency. CDI desalts saline water through storing ions in electrical double layers of porous carbons or by redox reactions with faradic materials.
This is the first book to specialise in CDI and aims to showcase the fundamentals and progressive achievements of the research. Chapters cover the timeline of CDI technologies, the expansion of new-family electrode materials, exploitation of new-concept CDI devices, and applications of CDI in other new areas. In addition, the book provides new insights into future directions for the development of CDI and other emerging nanotechnologies for addressing the energy-water nexus.
Edited by a founder of the field, the book will be of interest to those researching water desalination and purification across chemistry, materials science and environmental science.
Contents
Timeline of Capacitive Deionization: The Path to a New Era;Carbon Nanomaterials for Capacitive Deionization: Heteroatom Doping and Its Functionalities;Carbon Nanomaterials for Capacitive Deionization: Emerging Precursors via Pyrolysis;Beyond Carbon Nanomaterials: The Rise of Faradic Nanomaterials;Defining Capacitive Deionization from the Perspective of Faradic Nanomaterials;Technological and Conceptual Evolution for Capacitive Deionization;Membrane Capacitive Deionization;Inverted Capacitive Deionization;Flow-electrode Capacitive Deionization;Hybrid Capacitive Deionization;Capacitive Deionization for Selective Capture of Ions;Capacitive Deionization for Environmental Contamination Control;Capacitive Deionization for Rare Metal Recovery;Capacitive Deionization for Industrial Application: What Can We Expect?
