|
Title: |
Advances in Nanotechnology |
| Sub-title: |
Volume 5 |
Search Result:
| Edited by: |
Zacharie Bartul, Jerome Trenor |
| ISBN10-13: |
1617613223 : 9781617613227 |
| Format: |
Hardback |
| Size: |
180x260mm |
| Pages: |
0 |
| Weight: |
.922 Kg. |
| Published: |
Nova Science Publishers, Inc (US) - June 2011 |
| List Price: |
261.99 Pounds Sterling |
| Availability: |
In Stock
Qty Available: 2 |
| Subjects: |
Nanotechnology |
| Nanotechnology is the study of the controlling of matter on an atomic and molecular scale and is also very diverse, ranging from extensions of conventional device physics to completely new approaches based upon molecular self-assembly, from developing new materials with dimensions on the nanoscale to investigating whether we can directly control matter on the atomic scale. This book gathers and presents data on nanotechnology, including the channeling of protons through carbon nanotubes; the preparation and application of molecular crystal ID nanostructures; strategies on inorganic nanotube arrays; critical interpretation of nanoindentation data from biomaterials characterization; nanoindentation in dentistry; and nanorod fabrications in light emitters. |
| Table of Contents: |
| Preface; Channeling of Protons through Carbon Nanotubes; Preparation & Applications of Molecular Crystal 1D Nanostructures; Nanorod Fabrications & Its Potential Application in Light Emitters; Simple Models for Characterization of Mechanical Properties by Nanoindentation; Titania Nanotube (Nanopore) Arrays Materials: Fabrication, Material Properties & Environmental Applications; Electrochemical Supercapacitor Performance of Nanotube Array Electrodes; Strategies on Inorganic Nanotube Arrays; Synthesis & Characterizations of 1-Dimensional Ferroelectric Oxide Nanomaterials; Templae-Based Nanotube Arrays; Application of AFM Based Nanoindentation for the Development of Nanostructures; Nanoindentation in Dentistry; Template-Directed Engineering of Nanotube Arrays: Morphology & Materials; The Preparation of Amorphous Carbon Nanotip Arrays & Al-Doping on their Field Emission Properties; Critical Interpretation of Nanoindentation Data from Biomaterials Characterization; Index. |