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Full Description
This up-to-date review of the most important areas where surface analysis techniques are employed covers recent developments in traditional fields, as well as such newly emerged important subfields as biomaterials and metrology. The handbook is problem oriented, aiding readers in finding the technique optimally suited for any specific analytic problem. Following a section surveying the fields of application and introducing physical analysis methods, a second section on the fundamentals provides the necessary physical background, with summaries at the end of each chapter highlighting the most important features of any particular technique. The third section on applications outlines how problems in various fields can be tackled using these techniques, including: semiconductors metallurgy magnetic materials polymers biomaterials catalysis oxidation corrosion adhesion tribology metrology environmental analysis aerospace technology archeometry. Summaries at the end of these chapters state which feature of any technique is beneficial for the particular analytical problem in question.
Essential reading for those working in quality control, production process development, failure analysis, dimensional and chemical metrology and the development and functionalization of new materials.
Contents
SECTION I INTRODUCTION Introduction: Survey of the Fields of Application, Introduction of Physical Analysis Methods SECTION II FUNDAMENTALS Electron Beam Techniques Fundamentals of the Electron-Solid Interaction Auger Electron Spectroscopy X-ray Photoelectron Spectroscopy Electron Probe Microanalysis Transmission Electron Microscopy Ion Beam Techniques Fundamentals of the Ion-Solid Interaction Rutherford Backscattering Spectrometry Elastic Recoil Detection Ion Scattering Spectroscopy Secondary Ion Mass Spectrometry Nuclear Techniques Scanning Probe Microscopy Scanning Tunneling Microscopy Atomic Force Microscopy Other Scanning Probe Microscopy Techniques SECTION III APPLICATIONS Sample Preparation Techniques Semiconductors Magnetic Materials Catalysis Metallurgy Tribology Oxidation Corrosion Polymers Adhesion Biomaterials Metrology Environmental Analysis Areospace Technology Archeometry Outlook
