Martin, D.A. ed.
Trends in Nanotubes Research
Nova Science Pub. 2006.
261 pp. (H)
ISBN 1-59454-791-2
13,700円
Contents
1. Plasma-CVD Growth of Carbon Nano-tubes on Metal Substrate/ 2. Compelling Evidence of High-Temperature Superconductivity in Carbon Nanotubes/ 3. Structure, Symmetries, Mechanics and Motors of Carbon Nanotubes/ 4. Silica Matrices in Synthesis of Carbon Nanotubes/ 5. Collective Electronic Excitations in Carbon Nanotubes/ 6. Near-field Electrodynamics of Atomically Doped Carbon Nanotubes/ 7. Carbon Nanotubes in Parallel Magnetic Field/ 8. Plasmons in Carbon Nanotubes/ Index/
* A novel way of arranging the atomic structure of a substance so that it can be made thousands of times stronger than in its native state. Often used to make duranium a further ten thousand times stronger. Thus, a lump of duranium can be made over ten million times stronger than the equivalent block of titanium. A one dimensional fullerene (a convex cage of atoms with only hexagonal and/ or pentagonal faces) with a cylindrical shape. Carbon nanotubes discovered in 1991 by Sumio Iijima resemble rolled up graphite, although they can not really be made that way. Depending on the direction that the tubes appear to have been rolled (quantified by the 'chiral vector'), they are known to act as conductors or semiconductors. Nanotubes are a proving to be useful as molecular components for nanotechnology. This new book assembles and presents new and important research in the field. *
Burke, P. J. ed.
Nanotubes and Nanowires
World Scientific Publishing Co.Pte. Ltd. 2007.4
136 pp. (H)
ISBN 981-270-435-3
7,000円
Contents
1. Nanostructured ZnO: Building Blocks for Nanoscale Devices (Z Fan & J G Lu) / 2. Carbon Nanotube Field-Effect Transistors (J Guo et al.) / 3. Carbon Nanotube Based Microwave Resonator Gas Sensors (M P McGrath & A Pham) / 4. Electrostatics of Nanowires and Nanotubes: Application for Field-Effect Devices (A Shik et al.) / 5. Carbon Nanotube Based Nonvolatile Memory Devices (Y Zhang) / 6. Single-Walled Carbon Nanotubes: Applications in High Frequency Electronics (P J Burke et al.) /
* The field of nanotubes and nanowires is evolving at a rapid pace, with many potential applications in electronics, optics, and sensors, to name a few. In this book, various prominent researchers summarize our current understanding of these new materials systems, as well as some of these potential applications. A snapshot of the state-of-the-art in the field of nanowires and nanotubes, the contributions give an instructive mix of experimental, theoretical, and visionary material to give the reader an indication of where the field is now, and where it is going. *
Gnecco, E. & Meyer, E. ed.
Fundamentals of Friction and Wear on the Nanoscale
NanoScience and Technology Series
Springer-Verlag 2007.
714 pp. (H)
ISBN 3-540-36806-x
26,500円
Contents
1 Friction Force Microscopy/ 2 Surface Forces Apparatus in Nanotribology/ 3 The quartz crystal microbalance as a nanotribology technique/ 4 Nanoscale Friction and Ultrasonics/ 5 Probing of Nanocontacts Inside a Transmission Electron Microscope/ 6 Stick-Slip Motion on the Atomic Scale/ 7 Velocity dependence of atomic friction: Rate theory and beyond/ 8 The Basic of Nanoscale Friction and Ways to Control it/ 9 Experimental Observations of Superlubricity and Thermolubricity/ 10 Theoretical Aspects of Superlubricity/ 11 First-Principles Atomic-Scale Study of Superlow Friction/ 12 NanoMechanics:Elasticity in Nano-Objects/ 13 Mechanical Properties of Metallic Nanojunctions/ 14 Contact Mechanics,Friction and Adhesion with Application to Quasicrystals/ 15 A Multiscale Molecular Dynamics Approach to Contact Mechanics and Friction:From Continuum Mechanics to Molecular Dynamics/ 16 The Role of Nanoroughness in Contact Mechanics/ 17 Energy Dissipation and Nanoscale Imaging in Tapping Mode AFM/ 18 Mechanisms of atomic scale dissipation at close approach in dynamic atomic force microscopy/ 19 Theory of Noncontact Friction/ 20 Dissipation at large Separations/ 21 Surface-Damage Mechanisms:from Nano- and Microcontacts to Wear of Materials/ 22 Single Asperity Nanometer-Scale Studies of Tribochemistry/ 23 Nanotribology of MEMS/NEMS/ 24 Nanotribology in Automotive Industry/ 25 Nanotribological Studies by Nanoparticle Manipulation/ 26 Mechanical Properties of Carbon Nanotubes/ 27 Theory of Adsorption and Manipulation of C 60 on the Si(001)Surface/ 28 Nanoscale Friction of Self-assembled Monolayers/ 29 Sliding Friction of Polymers: The Complex Role of Interface/ 30 Molecular Origins of Elastomeric Friction/ 31 Nanotribological Perspectives in Tissue Engineering/ Index/ *
757-10 登録日 07.06.19
