Andrew M Ellis, Christopher A Mayhew

Proton Transfer Reaction Mass Spectrometry

Principles and Applications

• Gebundenes Buch

Produktbeschreibung

Proton transfer reaction mass spectrometry (PTR-MS) is a specialist technique for detecting and identifying very small quantities amounts of organic gases in air. It is used mostly in atmospheric research, but also has applications in environmental science, pollution science, food science, and medical diagnosis. It is used as a monitoring system in various industries, e.g. measuring volatile organic compounds (VOCs) emitted by waste incineration plants. This book aims to provide a comprehensive account of the technique, and includes coverage of the basic principles, experimental techniques, and a detailed account of its various applications. Written by two leading researchers, the book will be essential reading for researchers, technicians, postgraduate students and professionals in industry.

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Produktdetails

• Verlag: Wiley
• Seitenzahl: 368
• Erscheinungstermin: 3. Februar 2014
• Englisch
• Abmessung: 252mm x 177mm x 25mm
• Gewicht: 715g
• ISBN-13: 9781405176682
• ISBN-10: 1405176687
• Artikelnr.: 34460757

Autorenporträt

Andrew M Ellis, Department of Chemistry, University of Leicester, Leicester Christopher A Mayhew, School of Physics & Astronomy, University of Birmingham, Birmingham

Inhaltsangabe

Quotation xiii
Preface xv
SECTION 1 FUNDAMENTALS
1 Background 3
1.1 Volatile Organic Compounds in the Earth's Atmosphere 3
1.2 Volatile Organic Compounds in Other Environments 5
1.3 Techniques for VOC Measurements 6
1.4 Emergence of Proton Transfer Reaction Mass Spectrometry 15
References 23
2 Chemical Ionization: Chemistry, Thermodynamics and Kinetics 25
2.1 Introduction 25
2.2 Proton Transfer 27
2.3 Other Chemical Ionization Processes 44
References 45
3 Experimental: Components and Principles 49
3.1 Introduction 49
3.2 Ion Extraction and Ion Optics 50
3.3 Ion Sources 57
3.4 Drift Tubes 64
3.5 Mass Spectrometry 76
3.6 Ion Detectors 97
3.7 Analogue versus Digital Signal Processing 103
References 106
4 Quantitative Analysis 111
4.1 Introduction 111
4.2 Extracting the Concentration of a Trace Gas from PTR-MS 111
4.3 Normalized Counts per Second 112
4.4 Why Calibrate? 113
4.5 Calibration Techniques 116
4.6 Effect of Humidity 120
4.7 Accuracy, Precision and Limit of Detection 122
4.8 Validation of PTR-MS 125
References 126
SECTION 2 APPLICATIONS
5 PTR-MS in the Environmental Sciences 131
5.1 Background 131
5.2 Use of Reagent Ions Other Than H3O+ 138
5.3 Biogenic VOCs 141
5.4 Anthropogenic VOCs 156
5.5 Biomass Burning 166
5.6 Applications of PTR-MS to Laboratory Studies of Atmospheric Chemistry
169
5.7 Plant Studies 178
5.8 Outlook for Atmospheric and Environmental Applications of PTR-MS 201
References 201
6 PTR-MS in the Food Sciences 219
6.1 Background 219
6.2 Combined GC-MS and PTR-MS Studies for Food Analysis 221
6.3 Mass Spectral Fingerprinting 224
6.4 Flavour Release and Perception 225
6.5 Food Classification, Food Quality and Food Control 243
6.6 Outlook for Food Science and Technology Applications 254
References 255
7 PTR-MS in the Medical Sciences 265
7.1 Background 265
7.2 Breath Analysis 266
7.3 Online PTR-MS Measurements of Volatile Emissions from Microbial
Cultures 288
7.4 Other Medical Applications 295
References 300
8 Applications of PTR-MS to Homeland Security: The Detection of Threat
Agents 309
8.1 Background 309
8.2 Explosives 310
8.3 Chemical Warfare Agents and Toxic Industrial Chemicals 319
8.4 Narcotics 320
8.5 Date Rape Drugs 323
8.6 Ion Mobility Mass Spectrometry and PTR-MS: A Brief Comparison for
Homeland Security Applications 324
8.7 Future Directions 325
References 326
9 Liquid Analysis Using PTR-MS 329
9.1 Determination of Henry's Law Constants Using PTR-MS 329
9.2 Analysis of Liquids 331
References 334
Index