Description

Book Synopsis
Surveying and comparing all techniques relevant for practical applications in surface and thin film analysis, this second edition of a bestseller is a vital guide to this hot topic in nano- and surface technology. This new book has been revised and updated and is divided into four parts - electron, ion, and photon detection, as well as scanning probe microscopy. New chapters have been added to cover such techniques as SNOM, FIM, atom probe (AP),and sum frequency generation (SFG). Appendices with a summary and comparison of techniques and a list of equipment suppliers make this book a rapid reference for materials scientists, analytical chemists, and those working in the biotechnological industry.

From a Review of the First Edition (edited by Bubert and Jenett)
"... a useful resource..."
(Journal of the American Chemical Society)

Trade Review
"...a useful resource..." Journal of the American Chemical Society

Table of Contents
Preface
INTRODUCTION

PART I: Electron Detection

X-RAY PHOTOELECTRON SPECTROSCOPY (XPS)
Principles
Instrumentation
Spectral Information and Chemical Shifts
Quantification, Depth Profiling, and Imaging
The Auger Parameter
Applications
Ultraviolet Photoelectron Spectroscopy (UPS)
AUGER ELECTRON SPECTROSCOPY (AES)
Principles
Instrumentation
Spectral Information
Quantification and Depth Profiling
Applications
Scanning Auger Microscopy (SAM)
ELECTRON ENERGY-LOSS SPECTROSCOPY (EELS) AND ENERGY-FILTERING TRANSMISSION ELECTRON MICROSCOPY (EFTEM)
Principles
Instrumentation
Qualitative Spectral Information
Quantification
Imaging of Element Distribution
Summary
LOW-ENERGY ELECTRON DIFFRACTION (LEED)
Principles and History
Qualitative Information
Quantitative Structural Information
Low-Energy Electron Microscopy
OTHER ELECTRON-DETECTING TECHNIQUES
Ion (Excited) Auger Electron Spectroscopy (IAES)
Ion Neutralization Spectroscopy (INS)
Inelastic Electron Tunneling Spectroscopy (IETS)

PART II: Ion Detection

STATIC SECONDARY ION MASS SPECTROMETRY (SSIMS)
Principles
Instrumentation
Quantification
Spectral Information
Applications
DYNAMIC SECONDARY ION MASS SPECTROMETRY (SIMS)
Principles
Instrumentation
Spectral Information
Quantification
Mass Spectra
Depth Profiles
Imaging
Three-Dimensional (3-D)-SIMS
Applications
ELECTRON-IMPACT (EI) SECONDARY NEUTRAL MASS SPECTROMETRY (SNMS)
Introduction
General Principles of SNMS
Instrumentation and Methods
Spectral Information and Quantification
Element Depth Profiling
Applications
LASER SECONDARY NEUTRAL MASS SPECTROMETRY (LASER-SNMS)
Principles
Instrumentation
Spectral Information
Quantification
Applications
RUTHERFORD BACKSCATTERING SPECTROSCOPY (RBS)
Introduction
Principles
Instrumentation
Spectral Information
Quantification
Figures of Merit
Applications
Related Techniques
LOW-ENERGY ION SCATTERING (LEIS)
Principles
Instrumentation
LEIS Information
Quantification
Applications of LEIS
ELASTIC RECOIL DETECTION ANALYSIS (ERDA)
Introduction
Fundamentals
Particle Identification Methods
Equipment
Data Analysis
Sensitivity and Depth Resolution
Applications
NUCLEAR REACTION ANALYSIS (NRA)
Introduction
Principles
Equipment and Depth Resolution
Applications
FIELD ION MICROSCOPY (FIM) AND ATOM PROBE (AP)
Introduction
Principles and Instrumentation
Applications
OTHER ION-DETECTING TECHNIQUES
Desorption Methods
Glow-Discharge Mass Spectroscopy (GD-MS)
Fast-Atom Bombardment Mass Spectroscopy (FABMS)

PART III: Photon Detection

TOTAL-REFLECTION X-RAY DLUORESCENCE (TXRF) ANALYSIS
Principles
Instrumentation
Spectral Information
Quantification
Applications
ENERGY-DISPERSIVE X-RAY SPECTROSCOPY (EDXS)
Principles
Practical Aspects of X-Ray Microanalysis and Instrumentation
Qualitative Spectral Information
Quantification
Imaging and Element Distribution
Summary
GRAZING INCIDENCE X-RAY METHODS FOR NEAR-SURFACE STRUCTURAL STUDIES
Principles
Experimental Techniques and Data Analysis
Applications
GLOW DISCHARGE OPTICAL EMISSION SPECTROSCOPY (GD-OES)
Principles
Instrumentation
Spectral Information
Quantification
Depth Profiling
Applications
SURFACE ANALYSIS BY LASER ABLATION
Introduction
Instrumentation
Depth Profiling
Near-Field Ablation
Conclusion
ION BEAM SPECTROCHEMICAL ANALYSIS (IBSCA)
Principles
Instrumentation
Spectral and Analytical Information
Quantitative Analysis by IBSCA
Applications
REFLECTION ABSORPTION IR SPECTROSCOPY (RAIRS)
Instrumentation
Principles
Applications
Related Techniques
SURFACE RAMAN SPECTROSCOPY
Principles
Surface-Enhanced Raman Scattering (SERS)
Instrumentation
Spectral Information
Quantification
Applications
Nonlinear Optical Spectroscopy
UV-VIS-IR ELLIPSOMETRY (ELL)
Principles
Instrumentation
Applications
SUM FREQUENCY GENERATION (SFG) SPECTROSCOPY
Introduction to SFG Spectroscopy
SFG Theory
SFG Instrumentation and Operation Modes
Applications of SFG Spectroscopy and Selected Case Studies
Conclusion
OTHER PHOTON-DETECTING TECHNIQUES
Appearance Potential Methods
Inverse Photoemission Spectroscopy (IPES) and Bremsstrahlung

PART IV: Scanning Probe Microscopy

INTRODUCTION
ATOMIC FORCE MICROSCOPY (AFM)
Principles
Further Modes of AFM Operations
Instrumentation
Applications
SCANNING TUNNELING MICROSCOPY (STM)
Principles
Instrumentation
Lateral and Spectroscopy Information
Applications
SCANNING NEAR-FIELD OPTICAL MICROSCOPY (SNOM)
Introduction
Instrumentation and Operation
SNOM Applications
Outlook
APPENDIX
Summary and Comparison of Techniques
Surface and Thin-Film Analytical Equipment Suppliers

Surface and Thin Film Analysis: A Compendium of Principles, Instrumentation, and Applications

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    A Hardback by Gernot Friedbacher, Henning Bubert

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      View other formats and editions of Surface and Thin Film Analysis: A Compendium of Principles, Instrumentation, and Applications by Gernot Friedbacher

      Publisher: Wiley-VCH Verlag GmbH
      Publication Date: 20/04/2011
      ISBN13: 9783527320479, 978-3527320479
      ISBN10:
      Also in:
      Chemistry Condensed matter physics Mechanical engineering and materials

      Description

      Book Synopsis
      Surveying and comparing all techniques relevant for practical applications in surface and thin film analysis, this second edition of a bestseller is a vital guide to this hot topic in nano- and surface technology. This new book has been revised and updated and is divided into four parts - electron, ion, and photon detection, as well as scanning probe microscopy. New chapters have been added to cover such techniques as SNOM, FIM, atom probe (AP),and sum frequency generation (SFG). Appendices with a summary and comparison of techniques and a list of equipment suppliers make this book a rapid reference for materials scientists, analytical chemists, and those working in the biotechnological industry.

      From a Review of the First Edition (edited by Bubert and Jenett)
      "... a useful resource..."
      (Journal of the American Chemical Society)

      Trade Review
      "...a useful resource..." Journal of the American Chemical Society

      Table of Contents
      Preface
      INTRODUCTION

      PART I: Electron Detection

      X-RAY PHOTOELECTRON SPECTROSCOPY (XPS)
      Principles
      Instrumentation
      Spectral Information and Chemical Shifts
      Quantification, Depth Profiling, and Imaging
      The Auger Parameter
      Applications
      Ultraviolet Photoelectron Spectroscopy (UPS)
      AUGER ELECTRON SPECTROSCOPY (AES)
      Principles
      Instrumentation
      Spectral Information
      Quantification and Depth Profiling
      Applications
      Scanning Auger Microscopy (SAM)
      ELECTRON ENERGY-LOSS SPECTROSCOPY (EELS) AND ENERGY-FILTERING TRANSMISSION ELECTRON MICROSCOPY (EFTEM)
      Principles
      Instrumentation
      Qualitative Spectral Information
      Quantification
      Imaging of Element Distribution
      Summary
      LOW-ENERGY ELECTRON DIFFRACTION (LEED)
      Principles and History
      Qualitative Information
      Quantitative Structural Information
      Low-Energy Electron Microscopy
      OTHER ELECTRON-DETECTING TECHNIQUES
      Ion (Excited) Auger Electron Spectroscopy (IAES)
      Ion Neutralization Spectroscopy (INS)
      Inelastic Electron Tunneling Spectroscopy (IETS)

      PART II: Ion Detection

      STATIC SECONDARY ION MASS SPECTROMETRY (SSIMS)
      Principles
      Instrumentation
      Quantification
      Spectral Information
      Applications
      DYNAMIC SECONDARY ION MASS SPECTROMETRY (SIMS)
      Principles
      Instrumentation
      Spectral Information
      Quantification
      Mass Spectra
      Depth Profiles
      Imaging
      Three-Dimensional (3-D)-SIMS
      Applications
      ELECTRON-IMPACT (EI) SECONDARY NEUTRAL MASS SPECTROMETRY (SNMS)
      Introduction
      General Principles of SNMS
      Instrumentation and Methods
      Spectral Information and Quantification
      Element Depth Profiling
      Applications
      LASER SECONDARY NEUTRAL MASS SPECTROMETRY (LASER-SNMS)
      Principles
      Instrumentation
      Spectral Information
      Quantification
      Applications
      RUTHERFORD BACKSCATTERING SPECTROSCOPY (RBS)
      Introduction
      Principles
      Instrumentation
      Spectral Information
      Quantification
      Figures of Merit
      Applications
      Related Techniques
      LOW-ENERGY ION SCATTERING (LEIS)
      Principles
      Instrumentation
      LEIS Information
      Quantification
      Applications of LEIS
      ELASTIC RECOIL DETECTION ANALYSIS (ERDA)
      Introduction
      Fundamentals
      Particle Identification Methods
      Equipment
      Data Analysis
      Sensitivity and Depth Resolution
      Applications
      NUCLEAR REACTION ANALYSIS (NRA)
      Introduction
      Principles
      Equipment and Depth Resolution
      Applications
      FIELD ION MICROSCOPY (FIM) AND ATOM PROBE (AP)
      Introduction
      Principles and Instrumentation
      Applications
      OTHER ION-DETECTING TECHNIQUES
      Desorption Methods
      Glow-Discharge Mass Spectroscopy (GD-MS)
      Fast-Atom Bombardment Mass Spectroscopy (FABMS)

      PART III: Photon Detection

      TOTAL-REFLECTION X-RAY DLUORESCENCE (TXRF) ANALYSIS
      Principles
      Instrumentation
      Spectral Information
      Quantification
      Applications
      ENERGY-DISPERSIVE X-RAY SPECTROSCOPY (EDXS)
      Principles
      Practical Aspects of X-Ray Microanalysis and Instrumentation
      Qualitative Spectral Information
      Quantification
      Imaging and Element Distribution
      Summary
      GRAZING INCIDENCE X-RAY METHODS FOR NEAR-SURFACE STRUCTURAL STUDIES
      Principles
      Experimental Techniques and Data Analysis
      Applications
      GLOW DISCHARGE OPTICAL EMISSION SPECTROSCOPY (GD-OES)
      Principles
      Instrumentation
      Spectral Information
      Quantification
      Depth Profiling
      Applications
      SURFACE ANALYSIS BY LASER ABLATION
      Introduction
      Instrumentation
      Depth Profiling
      Near-Field Ablation
      Conclusion
      ION BEAM SPECTROCHEMICAL ANALYSIS (IBSCA)
      Principles
      Instrumentation
      Spectral and Analytical Information
      Quantitative Analysis by IBSCA
      Applications
      REFLECTION ABSORPTION IR SPECTROSCOPY (RAIRS)
      Instrumentation
      Principles
      Applications
      Related Techniques
      SURFACE RAMAN SPECTROSCOPY
      Principles
      Surface-Enhanced Raman Scattering (SERS)
      Instrumentation
      Spectral Information
      Quantification
      Applications
      Nonlinear Optical Spectroscopy
      UV-VIS-IR ELLIPSOMETRY (ELL)
      Principles
      Instrumentation
      Applications
      SUM FREQUENCY GENERATION (SFG) SPECTROSCOPY
      Introduction to SFG Spectroscopy
      SFG Theory
      SFG Instrumentation and Operation Modes
      Applications of SFG Spectroscopy and Selected Case Studies
      Conclusion
      OTHER PHOTON-DETECTING TECHNIQUES
      Appearance Potential Methods
      Inverse Photoemission Spectroscopy (IPES) and Bremsstrahlung

      PART IV: Scanning Probe Microscopy

      INTRODUCTION
      ATOMIC FORCE MICROSCOPY (AFM)
      Principles
      Further Modes of AFM Operations
      Instrumentation
      Applications
      SCANNING TUNNELING MICROSCOPY (STM)
      Principles
      Instrumentation
      Lateral and Spectroscopy Information
      Applications
      SCANNING NEAR-FIELD OPTICAL MICROSCOPY (SNOM)
      Introduction
      Instrumentation and Operation
      SNOM Applications
      Outlook
      APPENDIX
      Summary and Comparison of Techniques
      Surface and Thin-Film Analytical Equipment Suppliers

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