Kinetics in nanoscale materials /
"As the ability to produce nanomaterials advances, it becomes more important to understand how the energy of the atoms in these materials is affected by their reduced dimensions. Written by an acclaimed author team, Kinetics in Nanoscale Materials is the first book to discuss simple but effecti...
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Main Authors: | |
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Group Author: | |
Published: |
Wiley,
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Publisher Address: | Hoboken, New Jersey : |
Publication Dates: | [2014] |
Literature type: | Book |
Language: | English |
Subjects: | |
Summary: |
"As the ability to produce nanomaterials advances, it becomes more important to understand how the energy of the atoms in these materials is affected by their reduced dimensions. Written by an acclaimed author team, Kinetics in Nanoscale Materials is the first book to discuss simple but effective models of the systems and processes that have recently been discovered. The text, for researchers and graduate students, combines the novelty of nanoscale processes and systems with the transparency of mathematical models and generality of basic ideas relating to nanoscience and nanotechnology"-- |
Item Description: | "Published simultaneously in Canada"--Title page verso. |
Carrier Form: | x, 296 pages : illustrations ; 25 cm |
Bibliography: | Includes bibliographical references and index. |
ISBN: |
9780470881408 (hardback) : 0470881402 (hardback) |
Index Number: | TA418 |
CLC: | TB383 |
Call Number: | TB383/T883 |
Contents: | Chapter 1. Introduction to kinetics in nanoscale materials -- 1.1 Introduction -- 1.2 Nanosphere: Surface energy equivalent to the Gibbs-Thomson potential -- 1.3 Nanosphere: Lower melting point -- 1.4 Nanosphere: Effect on homogeneous nucleation and phase diagram -- 1.5 Nanosphere: The Kirkendall effect and instability of hollow nanospheres -- 1.6 Nanosphere: The inverse Kirkendall effect in hollow alloy nanospheres -- 1.7 Nanosphere: Combining the Kirkendall effect and inverse Kirkendall effect on concentric bi-layer hollow nanospheres -- 1.8 Nanopore: Instability of a nanodonut hole in a membrane ... |