Nanomaterials
Processing and Characterization with Lasers
1. Auflage August 2012
XXXII, 778 Seiten, Hardcover
361 Abbildungen
18 Tabellen
Monographie
Kurzbeschreibung
The first in-depth treatment of the topic, this handy reference covers everything from fundamentals to the latest research results. A practical approach is used throughout, providing sufficient theory and modeling to understand the principles behind the techniques.
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The first in-depth treatment of the synthesis, processing, and characterization of nanomaterials using lasers, ranging from fundamentals to
the latest research results, this handy reference is divided into two main sections. After introducing the concepts of lasers, nanomaterials, nanoarchitectures and laser-material interactions in the first three chapters, the book goes on to discuss the synthesis of various nanomaterials in vacuum, gas and liquids. The second half discusses various nanomaterial characterization techniques involving lasers, from Raman and photoluminescence spectroscopies to light dynamic scattering, laser spectroscopy and such unusual techniques as laser photo acoustic, fluorescence correlation spectroscopy, ultrafast dynamics and laser-induced thermal pulses.
The specialist authors adopt a practical approach throughout, with an emphasis on experiments, set-up, and results. Each chapter begins
with an introduction and is uniform in covering the basic approaches, experimental setups, and dependencies of the particular method on
different parameters, providing sufficient theory and modeling to understand the principles behind the techniques.
Introduction of Lasers, Materials and Architectures at the Nanoscale
Laser-Material Interaction; Plasma Processing
Synthesis of Nanoarchitectures by Laser Processing in Vacuum and Gas Phases
Nanostructured Materials by Laser Vaporization Controlled Condensation (LVCC) Approach
Synthesis of Carbon Nanostructured Materials by Pulsed Laser Ablation in Furnace
Synthesis of Nanomaterials in Liquid Media
Laser Pyrolysis
Laser Induced Nanostructuring and Nanopatterning.
PART B: LASERS IN THE CHARACTERIZATION OF NANOMATERIALS
Raman Spectroscopy
Light Dynamic Scattering (LDS); An Approach to Particle Size Determination in Solution
Photoluminescence Spectroscopy :Exploration of nanomaterial optical properties and applications
Laser Acoustic, Photo Acoustic, Thermal Cleansing and Laser Ultrasonic Characterization of Materials.
Laser Spectroscopy at the Nanoscale
Ultrafast Spectroscopy in Materials Characterization
Non-linear Optical Characterization of Nanomaterials
Electrical Characterizations of Thin Films and Nanostructured Materials with Laser Induced Thermal Pulses
plasma at the nanostructured surfaces. His current research interest includes laser matter interaction, laser induced nanoparticle synthesis and modification, and materials for energy harvesting and storage.
Dr. Haibo Zeng is currently a Professor at Institute of Nano Science and Department of Material Science, Najing University of Aeronautics and Astronoutics (NUAA), China. His current research interests focus on 1) inorganic graphenes, 2) doped/alloyed nano-ZnO, and 3)
nanostructured cells. Dr. Zeng has published more than 60 refereed papers in journals with more than 1000 citations.
Dr. Chunlei Guo is Associate Professor at the Institute of Optics, University of Rochester, USA. He has chaired several optic and laser related committees and has published over 70 papers in refereed journals. Research interests encompass atoms/molecules in strong laser
field, non-linear optics, laser surface nano/microstructuring, femtosecond lasers and optics and ultrafast dynamics in solids.
Prof. Weiping Cai is the Director of the Institute of Solid State Physics, CAS and Head of the Key Laboratory of Materials Physics. He has published over 100 papers in international peerreviewed journals such as Advanced Materials and has organized several international conferences. Current research interests include synthesis and properties of metal and semiconductor nanoparticles, 2D nanoparticle arrays and sensors.