Nanowires: Applications, Chemistry, Materials, and Technologies

Nanowires are a fundamental resource that covers the fundamentals of synthesis, characterizations, recent progress, and applications of nanowires for many emerging applications. It is written by global experts and is suitable for students and researchers and industry professionals.

Format: Hardback
Length: 414 pages
Publication date: 14 March 2023
Publisher: Taylor & Francis Ltd

This comprehensive resource delves into the intricate world of nanowires, encompassing their synthesis, characterization, recent advancements, and diverse applications. In the early chapters, the unique properties and morphology of nanowires are explored, enabling their electronic, optical, and mechanical properties to be finely tuned. Subsequently, the book delves into future perspectives and the potential challenges that nanowires may address in various fields. Each chapter is authored by esteemed global experts, making it an invaluable textbook for students and a timely handbook for researchers and industry professionals engaged in physics, chemistry, materials, energy, biomedical, and nanotechnology.

Nanowires, with their exceptional properties and remarkable morphology, have emerged as promising materials for a wide range of emerging applications. Their unique structure allows for precise control over their properties, making them highly desirable in fields such as electronics, optics, and mechanics. In the early chapters of this resource, the authors delve into the fundamental aspects of nanowires, including their composition, structure, and synthesis methods. They discuss the unique characteristics that make nanowires suitable for various applications, such as their high surface area, small size, and excellent electrical and thermal conductivity.

The authors also explore the morphology of nanowires, which plays a crucial role in determining their electronic, optical, and mechanical properties. They discuss the various shapes and structures that nanowires can adopt, such as cylindrical, hexagonal, and spiral, and how these shapes can influence their behavior in different environments. By understanding the morphology of nanowires, researchers can tailor their properties to meet specific requirements for various applications.

As the book progresses, the focus shifts to the state-of-the-art progress and challenges in nanowires. The authors discuss the latest research findings and technological advancements in the field, including the development of new synthesis methods, the exploration of novel materials, and the integration of nanowires with other technologies. They also address the challenges that researchers face in the synthesis and characterization of nanowires, such as controlling their size, shape, and composition, and improving their stability and durability.

One of the key areas of research in nanowires is their application in electronic devices. Nanowires can be used as transistors, interconnects, and sensors, and their small size and high surface area make them highly efficient in these applications. The authors discuss the development of nanowire-based electronic devices, such as field-effect transistors, nanoelectromechanical systems, and sensors, and how these devices can improve the performance and efficiency of electronic systems.

In addition to electronic devices, nanowires have also found applications in optics and photonics. Nanowires can be used as optical fibers, waveguides, and photodetectors, and their small size and high refractive index make them highly desirable in these fields. The authors discuss the development of nanowire-based optical devices, such as nanophotonic devices, and how these devices can enhance the capabilities of optical communication systems and imaging technologies.

Another important area of research in nanowires is their application in energy and environmental science. Nanowires can be used as energy storage devices, such as batteries and supercapacitors, and their high surface area and conductivity make them highly efficient in these applications. The authors discuss the development of nanowire-based energy storage devices, such as lithium-ion batteries and supercapacitors, and how these devices can improve the energy efficiency and sustainability of various energy systems.

In addition to their applications in electronic devices, optics, and energy, nanowires have also found applications in biomedical and healthcare. Nanowires can be used as drug delivery devices, biosensors, and imaging agents, and their small size and biocompatibility make them highly desirable in these fields. The authors discuss the development of nanowire-based biomedical devices, such as drug delivery systems and biosensors, and how these devices can improve the diagnosis and treatment of various diseases.

Finally, the book provides insights into the future perspectives and potential challenges in the field of nanowires. The authors discuss the emerging trends and opportunities in nanowires, such as the integration of nanowires with other technologies, such as quantum computing and artificial intelligence, and the development of new applications in areas such as materials science, agriculture, and environmental science. They also address the challenges that researchers face in the commercialization of nanowires, such as the need for scalable synthesis methods and the development of robust packaging and integration technologies.

In conclusion, this comprehensive resource provides a deep understanding of the fundamentals, recent progress, and diverse applications of nanowires. It is an invaluable resource for students, researchers, and industry professionals engaged in physics, chemistry, materials, energy, biomedical, and nanotechnology. By exploring the unique properties and morphology of nanowires, the book offers a new direction and understanding to scientists, researchers, and students, paving the way for the development of innovative and groundbreaking technologies that will shape the future.

Weight: 950g
Dimension: 254 x 178 (mm)
ISBN-13: 9781032283852