MXene-based Hybrid Nano-Architectures for Environmental Remediation
and Sensor Applications: From Design to Applications brings
together the state-of-the-art in molecular design, synthetic
approaches, unique properties, and applications of MXene-based
hybrid nanomaterials, which combine 2D MXenes with low dimensional
materials and open the door to novel solutions in environmental
remediation, sensing, and other areas. The book begins by
introducing the fundamentals of MXenes and MXene-based hybrid
nano-architectures, including synthesis methods, structural design,
basic properties, and characterization techniques. The second
section of the book provides in-depth coverage of specific areas of
environmental remediation and removal, covering gases, toxic heavy
metals, organic pollutants, pharmaceuticals, organic dyes,
pesticides, and inorganic pollutants. This is followed by a section
focusing on targeted sensing applications, including
electrochemical sensors, optical sensors, biosensors, and strain
sensors. The final chapters consider other application areas for
MXene-based hybrid nano-architectures, such as wearable devices and
thermal energy storage, and address the other key considerations of
secondary environmental contamination, toxicity, regeneration and
re-use of MXenes, and future opportunities. This is a valuable
resource for researchers and advanced students across
nanotechnology, environmental science, biotechnology, chemistry,
and materials science and engineering, as well as industrial
scientists, engineers, and R&D professionals with an interest
in MXenes and advanced nanomaterials for a range of advanced
applications, notably in environmental remediation and sensing.
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