Description
Book SynopsisMagnetism in carbon nanostructures is a rapidly expanding field of current materials science. This comprehensive survey of the subject provides an in-depth understanding of both the fundamental nature of the topic, as well as its groundbreaking nanotechnological applications, of interest to anyone studying or working in the field.
Trade Review'The aim of this book is to bring together the work of physicists, chemists, and materials scientists in a single, self-contained volume. This overview of current magnetic carbon nanostructure research is aimed primarily toward graduate students and researchers; ideally, readers will have an advanced undergraduate understanding of thermodynamics and quantum mechanics. Taking into account the varied backgrounds of his readers, however, Hagelberg first presents separate introductions to magnetism and carbon nanostructures. The remaining four sections, the book's core material, present intrinsic magnetism, magnetic transport phenomena, and composite materials. The author no doubt had to make some difficult decisions to keep the text to a reasonable length. Any concerns readers may have about scope, however, are ameliorated by a set of thorough appendixes and a website of additional material; the author has posted additional sections that provide deeper, more detailed content.' E. Kincanon, Choice
'Hagelberg's interesting volume summarises and explains the progress that has been made in developing and understanding the magnetism found in carbon-containing materials. More than that, Hagelberg puts these new developments into context, carefully explaining the underlying physical principles … This is a thorough and clearly written account of a fast-moving field.' Stephen J. Blundell, Contemporary Physics
Table of ContentsPreface; 1. Magnetic carbon nanostructures; Part I. Theories and Methods: 2. Basic notions of magnetism; 3. The tools: computational and experimental techniques; Part II. Carbon and its Nanoscale Allotropes: 4. Graphene; 5. Carbon nanotubes; 6. Fullerenes; Part III. Spin Effects in Graphene and Carbon Nanotubes: 7. Magnetic textures at edges and defect sites; 8. Spin-orbit coupling in carbon nanostructures; Part IV. Transport Phenomena: 9. Elements of spintronics; 10. Spin transport in carbon nanostructures; 11. Magnetotransport; Part V. Composite Materials: 12. Impurities; 13. Networks of carbon clusters; 14. Medical applications; Afterword; References; Index.
