Handbook of Spectroscopy

Copyright © 2003 Wiley-VCH Verlag GmbH & Co. KGaA

Handbook of Spectroscopy

Editor(s): Guenter Gauglitz, Tuan Vo-Dinh

Published Online: 28 JAN 2005

Print ISBN: 9783527297825

Online ISBN: 9783527602308

DOI: 10.1002/3527602305

About this Book

Product Information

About The Product

This handbook provides a straightforward introduction to spectroscopy, showing what it can do and how it does it, together with a clear, integrated and objective account of the wealth of information that can be derived from spectra. The sequence of chapters covers a wide range of the electromagnetic spectrum, and the physical processes involved, from nuclear phenomena to molecular rotation processes.

- A day-by-day laboratory guide: its design based on practical knowledge of spectroscopists at universities, industries and research institutes
- A well-structured information source containing methods and applications sections framed by sections on general topics
- Guides users to a decision about which spectroscopic method and which instrumentation will be the most appropriate to solve their own practical problem
- Rapid access to essential information
- Correct analysis of a huge number of measured spectra data and smart use of such information sources as databases and spectra libraries



Table of contents

    1. You have free access to this content
      Front Matter (pages i–xxxii)

  2. Part I: Sample Preparation and Sample Pretreatment

    1. You have free access to this content
      Introduction (pages 1–3)

      Dr. Douglas A. Lane

    2. Chapter 1

      Collection and Preparation of Gaseous Samples (pages 4–16)

      Douglas A. Lane

    3. Chapter 2

      Sample Collection and Preparation of Liquid and Solids (pages 17–35)

      Dr. Brian M. Cullum and Prof. Dr. Tuan Vo-Dinh

  3. Part II: Methods 1: Optical Spectroscopy

    1. Chapter 3

      Basics of Optical Spectroscopy (pages 37–47)

      Dr. Martin Hof

    2. Chapter 4

      Instrumentation (pages 48–69)

      Dr. Valdas Sablinskas

    3. Chapter 5

      Measurement Techniques (pages 70–88)

      Dr. Gerald Steiner

    4. Chapter 6

      Applications (pages 89–168)

      Dr. Valdas Sablinskas, Dr. Gerald Steiner and Dr. Martin Hof

  4. Part III: Methods 2: Nuclear Magnetic Resonance Spectroscopy

    1. You have free access to this content
      Introduction (pages 169–176)

      Dr. Edward W. Hagaman

    2. Chapter 7

      An Introduction to Solution, Solid-State, and Imaging NMR Spectroscopy (pages 177–208)

      Dr. Leslie G. Butler

    3. Chapter 8

      Solution NMR Spectroscopy (pages 209–268)

      Dr. Gary E. Martin, Dr. Chad E. Hadden and Dr. David J. Russell

    4. Chapter 9

      Solid-State NMR (pages 269–326)

      Steven P. Brown and Dr. Lyndon Emsley

  5. Part IV: Methods 3: Mass Spectrometry

    1. Chapter 10

      Mass Spectrometry (pages 327–362)

      Prof. Dr. Michael Przybylski, Dr. Wolfgang Weinmann and Dr. Thilo A. Fligge

  6. Part V: Methods 4: Elemental Analysis

    1. Chapter 11

      X-Ray Fluorescence Analysis (pages 363–420)

      Prof. Dr. K. Janssens

    2. Chapter 12

      Atomic Absorption Spectrometry (AAS) and Atomic Emission Spectrometry (AES) (pages 421–496)

      Dr. Erwin Rosenberg and Dr. Ulrich Panne

  7. Part VI: Methods 5: Surface Analysis Techniques

    1. Chapter 13

      Surface Analysis Techniques (pages 497–599)

      Dr. A. Macková, Dr. S. A. Morton, Dr. C. G. H. Walker and Prof. Dr. K. Volka

  8. Part VII: Applications 1: Bioanalysis

    1. Chapter 14

      Bioanalysis (pages 1–147)

      Dr. Willem M. Albers, Dr. Arto Annila, Dr. Nicholas J. Goddard, Prof. Dr. Gabor Patonay and Prof. Dr. Erkki Soini

  9. Part VIII: Applications 2: Environmental Analysis

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      Introduction (pages 149–151)

      Dr. Damia Barceló

    2. Chapter 15

      LC-MS in Environmental Analysis (pages 152–243)

      Prof. Dr. H. Fr. Schröder

    3. Chapter 16

      Gas Chromatography/Ion Trap Mass Spectrometry (GC/ITMS) for Environmental Analysis (pages 244–267)

      Dr. Michel Sablier and Dr. Toshihiro Fujii

  10. Part IX: Application 3: Process Control

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      Introduction (pages 267–278)

      Dr. John Green

    2. Chapter 17

      Optical Spectroscopy (pages 279–296)

      Dr. John Green

    3. Chapter 18

      NMR (pages 297–315)

      Dr. Loring A. Weisenberger

    4. Chapter 19

      Process Mass Spectrometry (pages 316–335)

      Dr. Christian Hassell

    5. Chapter 20

      Elemental Analysis (pages 336–376)

      Dr. J. S. Crighton

  11. Part X: Hyphenated Techniques

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      Introduction (pages 377–380)

      Dr. John C. Fetzer

    2. Chapter 21

      Hyphenated Techniques for Chromatographic Detection (pages 381–435)

      Dr. John C. Fetzer

  12. Part XI: General Data Treatment: Data Bases/Spectral Libaries

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      Introduction (pages 437–440)

      Dr. Kurt Varmuza

    2. Chapter 22

      Optical Spectroscopy (pages 441–468)

      Dr. Steffen Thiele and Prof. Dr. Reiner Salzer

    3. Chapter 23

      Nuclear Magnetic Resonance Spectroscopy (pages 469–487)

      Prof. Dr. Wolfgang Robien

    4. Chapter 24

      Mass Spectrometry (pages 488–504)

      Dr. Antony N. Davies

    1. You have free access to this content
      Index (pages 505–538)

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