Raman spectroscopy and its application in nanostructures /

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Bibliographic Details
Author / Creator:Zhang, Shu-Lin.
Imprint:Chichester, West Sussex : Wiley, 2012.
Description:xii, 485 p. [12] p. of col. plates : ill. ; 26 cm.
Language:English
Subject:Raman spectroscopy.
Nanostructured materials -- Spectra.
SCIENCE / Spectroscopy & Spectrum Analysis.
Nanostructured materials -- Spectra.
Raman spectroscopy.
Format: Print Book
URL for this record:http://pi.lib.uchicago.edu/1001/cat/bib/8682090
Hidden Bibliographic Details
ISBN:9780470686102 (hardback)
0470686103 (hardback)
Notes:Includes bibliographical references and index.
Summary:"This book will be a useful contribution to an active area of physics research, and will describe the basic knowledge on three-dimensional (traditional) Raman spectroscopy and then discuss the main features of low-dimensional Raman spectroscopy"--
Table of Contents:
  • Preface
  • Acknowledgements
  • Part I. Fundamentals of Raman Spectroscopy
  • 1. Basic Knowledge of Raman Spectroscopy
  • 1.1. Spectrum and Spectroscopy
  • 1.2. Scattering and Raman Scattering
  • 1.3. Fundamental Features of Raman Scattering Spectra
  • 1.4. Discovery of the Raman Scattering Effects and Observation of the First Raman Spectrum
  • 1.5. Historical Development of Raman Spectroscopy
  • References
  • 2. Fundamental Theory of Light Scattering
  • 2.1. Description of Scattering
  • 2.2. Macroscopic Theory of Light Scattering
  • 2.3. Microscopic Theory of Light Scattering
  • References
  • 3. Experimental Foundation of Raman Spectroscopy
  • 3.1. Generality of Raman Spectral Measurements
  • 3.2. Experimental Apparatus
  • 3.3. Main Performance Parameters of Raman Spectrometers
  • 3.4. Experimental Measurements
  • 3.5. Data Processing of Recorded Raman Spectra
  • 3.6. A Typical Example of Vibration Raman Spectra - Raman Spectrum of CCl4
  • 3.7. Interference Spectrometer and Fourier Transform Optics
  • References 104
  • Introduction to Modern Raman Spectroscopy I-New Raman Spectroscopic Branch Classified Based on Spectral Features
  • 4.1. Non-visible Excited Raman Spectroscopy
  • 4.2. Resonant Raman Spectroscopy (RRS)
  • 4.3. High-Order/Multiple-Phonon Raman Spectroscopy (MPRS)
  • 4.4. Raman Spectroscopy under Extreme Conditions
  • 4.5. Polarized Raman Spectroscopy (PRS)
  • 4.6. Time-Resolved (Transient) Raman Spectroscopy (TRRS)
  • 4.7. Space-Resolved Micro-Raman Spectroscopy and Raman Microscopy
  • 4.8. Surface-enhanced Raman Spectroscopy (SERS)
  • 4.9. Near-Field Raman Spectroscopy (NFRS)
  • 4.10. Tip-enhanced Raman Spectroscopy (TERS)
  • 4.11. Non-linear and Coherent Raman Spectroscopy (NLRS)
  • 4.12. Coherent Anti-Stokes Raman Scattering (CARS)
  • 4.13. Stimulated Raman Scattering (SRS)
  • References 150
  • Introduction to Modern Raman Spectroscopy II-New Raman Spectroscopic Branch Classified Based on Applied Objects
  • 5.1. Common Spectroscopic Basis Related to the Study and Application of Raman Spectroscopy
  • 5.2. Chemistry Raman Spectroscopy
  • 5.3. Condensed Matter Raman Spectroscopy
  • 5.4. Biological and Medical Raman Spectroscopy
  • 5.5. Geology and Mineralogy Raman Spectroscopy
  • 5.6. Art and Archeology Raman Spectroscopy
  • 5.7. Industry Raman Spectroscopy
  • 5.8. Raman Spectroscopy in National Security and Judicature
  • References
  • Part II. Study of Nanostructures by Raman Spectroscopy
  • 6. General Knowledge of Nanostructures
  • 6.1. Nanostructure, Characteristic Length, and Dimension
  • 6.2. Nanomaterials
  • 6.3. Properties of Nanostructures
  • 6.4. Finite Size and Specific Surface
  • 6.5. The Study of Nanostructure
  • References
  • 7. Theoretical Fundamentals of Raman Scattering in Solids
  • 7.1. General Knowledge of Lattice Dynamics
  • 7.2. Microscopic Model of Lattice Dynamics
  • 7.3. Macroscopic Model of Lattice Dynamics
  • 7.4. Lattice Dynamics of Amorphous Matter
  • 7.5. Raman Scattering Theories in Solids
  • References
  • 8. Theoretical Fundamentals of Raman Scattering in Nanostructures
  • 8.1. Superlattices
  • 8.2. Nanostructure Materials
  • 8.3. Micro-Crystal Models
  • 8.4. Amorphous Feature and PDOS Expression of Nanostructure Raman Spectra
  • 8.5. First-Principles/ab initio Calculation of Nanostructure Raman Spectra
  • References
  • 9. Routine Raman Spectra of Nanostructures
  • 9.1. Characteristic Raman Spectra of Semiconductor Superlattices
  • 9.2. Characteristic Raman Spectra of Nanosilicon
  • 9.3. Characteristic Raman Spectra of Nanocarbons
  • 9.4. Characteristic Raman Spectra of Polar Nano-Semiconductors
  • 9.5. Multiple-Phonon Raman Spectra
  • 9.6. Anti-Stokes Raman Spectra
  • References
  • 10. Raman Spectroscopy of Nanostructures with Exciting Laser Features
  • 10.1. Raman Spectra with Changing of Exciting Light Wavelengths - Resonant Raman Spectra
  • 10.2. Raman Spectra with Exciting Laser Polarization
  • 10.3. Raman Spectra with Exciting Laser Intensity
  • References
  • 11. Raman Spectra with Samples of Nanostructures
  • 11.1. Effects of Sample Sizes on Raman Spectra of Nanostructures
  • 11.2. Effects of Sample Shapes on Raman Spectra in Nanostructures
  • 11.3. Effects of Sample Component and Micro-structure on Raman Spectra in Nanostructures
  • References
  • 12. Electron-Phonon Interactions in Raman Spectroscopy of Nanostructures
  • 12.1. Abnormal Raman Spectral Features in Nanostructures
  • 12.2. Origin of No FSE on Phonons
  • 12.3. Fr€ohlich Interaction in Nanostructures
  • 12.4. Theoretical Raman Spectra of Non-polar and Polar Nano-Semiconductors
  • 12.5. Amorphous Feature of Nanocrystal Raman Spectra of No FSE on Phonons and the Breaking of Translation Symmetry in Nano-Semiconductors
  • References
  • Appendices
  • Appendix I. Electromagnetic Waves and Lasers
  • I.1. Electromagnetic Wavelength
  • I.2. Laser Types
  • I.3. Laser Lines and Ionic/Atomic Lines of Gas Lasers used Commonly in Raman Spectroscopy
  • Appendix II. Standard Spectral Lines
  • II.1. Spectral Lines of Mercury Lamp in Visible Range
  • II.2. Standard Lines of Neon Spectral Lamp
  • Appendix III. Raman Tensors
  • III.1. Raman Tensors and Symmetric Attributes
  • III.2. Applications of Raman Tensors
  • Appendix IV. Constitution, Polarity, and Symmetry Structure of Crystals
  • IV.1. Constitution, Polarity, and Crystal Structure of Crystals
  • IV.2. Syngony and its Basic Vector, Bravais Lattice, and Point Group Symmetry
  • Appendix V. Brillouin Zones, Vibration Modes, and Raman Spectra of Typical Ordinary and Semiconducting Crystals
  • V.1. Brillouin Zones and Symmetrical Points of Cubic System
  • V.2. Vibrational Modes and their Symmetries of Several Crystals
  • V.3. Structures, Symmetries, and Raman Spectra of Several Semiconducting Crystals
  • Appendix VI. Physical Parameters, Constants, and Units
  • VI.1. Periodic Table of the Elements
  • VI.2. Electronic Structure of Atoms
  • VI.3. Common Physical Constant and the Performance Parameters of Optical Glass
  • References
  • Index