Anisotropic 2D Materials and Devices
Anisotropic 2D Materials and Devices by Yuerui Lu, published by the Royal Society of Chemistry on September 23, 2022, is a comprehensive exploration of recent advancements in anisotropic two-dimensional materials. This edition, comprising 209 pages, delves into various materials such as phosphorene, its arsenic alloys, and low-symmetry transition-metal dichalcogenides, alongside organic 2D materials. The book provides detailed synthesis protocols and characterization techniques, highlighting the technological applications of these materials in next-generation electronics, optoelectronics, and biomedical fields.
Readers will find in-depth discussions on enhanced many-body interactions and high binding energy dynamics, which are crucial for the design of high-performance optoelectronic devices. The text also covers applications in bio-imaging, cancer diagnosis, drug delivery, and antibacterial performance, as well as the potential of these materials in nano-electro-mechanical devices. This book serves as a valuable reference for scientists and engineers in materials science, physics, and electronics, as well as those in academia and industry engaged in related research areas.
Official synopsis Publisher
Presenting recent progress in exploring anisotropic 2D materials, readers will be introduced to phosphorene and its arsenic alloys, monochalcogenides of group IV elements in the form of MX (M = Ge, Sn and X = S, Se, Te), low-symmetry transition-metal dichalcogenide (TMD) materials such as rhenium disulphide (ReS2) and rhenium diselenide (ReSe2), and organic 2D materials. Providing detailed synthesis protocols and characterization techniques for these various anisotropic 2D materials, readers will learn their specific technological scopes for next generation electronics, optoelectronics and biomedical applications, challenges and future directions.
Edited by an leading expert, contributors cover enhanced many-body interactions and high binding energy 1D particle dynamics to showcase design of high-performance optoelectronic devices; anisotropic polariton for designing polariton based laser systems; applications in bio-imaging, cancer diagnosis and therapies, drug delivery and release, and antibacterial performance; and finally, their potential in nano-electro-mechanical devices.
Considering all these areas in detail, this book will be a useful reference to the scientific communities working in related research fields, especially for materials scientists, chemists, physicists and electronics/electrical/energy engineers. This book may also be of use to those in chemical academia and industry more broadly.
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