Optical, Electronic and Magnetic Materials – serie
Visar alla böcker i serien Optical, Electronic and Magnetic Materials. Handla med fri frakt och snabb leverans.
4 produkter
4 produkter
3 425 kr
Skickas inom 5-8 vardagar
Laser technologies offer multiple benefits in the synthesis and characterisation of nanomaterials. In synthesis the higher selectivity and shorter processing times of laser-based techniques can help you to save time and minimise waste, compared to conventional fabrication processes. Characterisation with lasers allows you to study nonlinear optical effects which provide better molecular selectivity and reduced background signals.Beginning with chapters introducing the principles of lasers and non-linear optics, this book will guide you through using laser-based techniques for the synthesis and characterisation of nanomaterials. Laser sintering and melting are included, as well as approaches to 3D printing by using multiphoton lithography. Various characterisation techniques are described, including multiscale and ultrafast dynamics, and LIBS. Both experienced practitioners and those aspiring to use lasers in their work will find this book a useful and inspiring guide.
3 082 kr
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Magnetic nanomaterials have undergone a significant evolution since the publication of the first Edition of this book. This second Edition of Magnetic Nanomaterials will provide a comprehensive overview of the latest research in the area of magnetic nanoparticles and their broad applications in synthesis, catalysis, theranostics, imaging and liquid biopsies.The book starts with an introduction to magnetism in nanomaterials and magnetic nanoparticle design followed by individual chapters which focus on specific uses. Applications covered include drug delivery, theranostic agents for cancer treatment as well as catalysis, biomass conversion and enhancement of MRI sensitivity utilizing magnetic nanomaterials.The reader will have the opportunity to learn about the frontier of magnetic nanotechnology from scientists who have shaped this unique and highly collaborative field of research. Written and edited by experts working within the field across the world, this book will appeal to students and researchers interested in nanotechnology, engineering and physical sciences.
3 767 kr
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Combining high energy density and high power delivery, supercapacitors are an attractive form of energy storage compared to batteries and dielectric capacitors. Their rapid charge/discharge cycles and superior longevity are of particular interest to many industries, including transport, telecommunications, defence, and energy distribution.The introductory chapters to this book present the fundamentals of this growing technology, including design principles and fabrication of supercapacitors, through to manufacture at an industrial scale. With electrode materials key to their design, much of the second part of the book explores the range of their sources, including biomass feedstocks and composites. Combining this knowledge, the third part of the book is dedicated to various applications around the world, supported by case studies and opportunities for commercialisation and sustainability.
3 482 kr
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Advanced memory technologies are impacting the information era, representing a vibrant research area of huge interest in the electronics industry. The demand for data storage, computing performance and energy efficiency is increasing exponentially and will exceed the capabilities of current information technologies.Alternatives to traditional silicon technology and novel memory principles are expected to meet the need of modern data-intensive applications such as “big data” and artificial intelligence (AI). Functional materials or methodologies may find a key role in building novel, high speed and low power consumption computing and data storage systems.This book covers functional materials and devices in the data storage areas, alongside electronic devices with new possibilities for future computing, from neuromorphic next generation AI to in-memory computing.Summarizing different memory materials and devices to emphasize the future applications, graduate students and researchers can systematically learn and understand the design, materials characteristics, device operation principles, specialized device applications and mechanisms of the latest reported memory materials and devices.