Atomic Clusters :From Gas Phase to Deposited ( Volume 12 )

Publication subTitle :From Gas Phase to Deposited

Publication series :Volume 12

Author: Woodruff   D. P.  

Publisher: Elsevier Science‎

Publication year: 2007

E-ISBN: 9780080475950

P-ISBN(Paperback): 9780444527561

P-ISBN(Hardback):  9780444527561

Subject: O562 atomic physics;O6 Chemistry

Language: ENG

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Description

Atomic Clusters: From Gas Phase to Deposited brings together a series of chapters, prepared by acknowledged experts in their fields. Both fundamental and practical aspects are addressed of the physics and chemistry of a novel state of matter, namely clusters of small numbers of atoms of nanometre dimensions. This is a field of nanoscience that existed before the word was invented, but has particularly achieved major advances in the recent years.

* Contributions from leading experts in solid surfaces research
* Cluster science is concerned with the properties of materials on the nano-metre scale
* Brings together work on both free (gas-phase) clusters and those deposited on surfaces

Chapter

Cover

pp.:  1 – 12

Preface

pp.:  12 – 14

Contents

pp.:  14 – 24

Chapter 1. Size effects in the chemistry of small clusters

pp.:  24 – 76

Chapter 2. Chemical reactivity and catalytic properties of size-selected gas-phase metal clusters

pp.:  76 – 114

Chapter 3. Probing the unique size-dependent properties of small au clusters, au alloy clusters, and Co-chemisorbed au clusters in the gas phase

pp.:  114 – 174

Chapter 4. Aun and Agn (=1–8) nanocluster catalysts: gas-phase reactivity to deposited structures

pp.:  174 – 224

Chapter 5. Oxide-supported metal clusters

pp.:  224 – 294

Chapter 6. Magic numbers for shells of electrons and shells of atoms in binary clusters

pp.:  294 – 322

Chapter 7. Computational electron spectroscopy of gas-phase metal clusters

pp.:  322 – 350

Chapter 8. Vibrational spectroscopy of gas-phase clusters and complexes

pp.:  350 – 400

Chapter 9. Trapped ion electron diffraction: structural evolution of silver and gold clusters

pp.:  400 – 432

Chapter 10. Superatoms: building blocks of new materials

pp.:  432 – 450

Chapter 11. Magnetic properties of 2D islands on single-crystal metal surfaces

pp.:  450 – 494

Chapter 12. Electronic structure and magnetic properties of small deposited transition metal clusters

pp.:  494 – 510

Chapter 13. Magnetic properties of deposited and embedded clusters

pp.:  510 – 558

Chapter 14. Theory of magnetic clusters and nanostructures at surfaces

pp.:  558 – 612

Chapter 15. Modelling the structure and dynamics of metal nanoclusters deposited on graphite.

pp.:  612 – 640

Index

pp.:  640 – 650

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