Description: FREE SHIPPING UK WIDE Practical Inductively Coupled Plasma Spectrometry by John R. Dean A new edition of this practical approach to sampling, experimentation, and applications in the field of inductively coupled plasma spectrometry The second edition of Practical Inductively Coupled Plasma Spectrometry discusses many of the significant developments in the field which have expanded inductively coupled plasma (ICP) spectrometry from a useful optical emission spectroscopic technique for trace element analysis into a source for both atomic emission spectrometry and mass spectrometry, capable of detecting elements at sub-ppb (ng mL−1) levels with good accuracy and precision. Comprising nine chapters, this new edition has been fully revised and up-dated in each chapter. It contains information on everything you need to practically know about the different types of instrumentation as well as pre- and post-experimental aspects. Designed to be easily accessible, with a start-to-finish approach, each chapter outlines the key practical aspects of a specific aspect of the topic. The author, a noted expert in the field, details specific applications of the techniques presented, including uses in environmental, food and industrial analysis. This edition: Emphasizes the importance of health and safety;Provides advanced information on sample preparation techniques;Presents an updated chapter on inductively coupled plasma mass spectrometry;Features a new chapter on current and future development in ICP technology and one on practical trouble shooting and routine maintenance. Practical Inductively Coupled Plasma Spectrometry offers a practical guide that can be used for undergraduate and graduate students in the broad discipline of analytical chemistry, which includes biomedical science, environmental science, food science and forensic science, in both distance and open learning situations. It also provides an excellent reference for those in postgraduate training in these fields. FORMAT Hardcover LANGUAGE English CONDITION Brand New Back Cover A new edition of this practical approach to sampling, experimentation, and applications in the field of inductively coupled plasma spectrometry The second edition of Practical Inductively Coupled Plasma Spectrometry discusses many of the significant developments in the field which have expanded inductively coupled plasma (ICP) spectrometry from a useful optical emission spectroscopic technique for trace element analysis into a source for both atomic emission spectrometry and mass spectrometry, capable of detecting elements at sub-ppb (ng mL-1) levels with good accuracy and precision. Comprising nine chapters, this new edition has been fully revised and updated in each chapter. It contains information on everything you need to practically know about the different types of instrumentation as well as pre- and post-experimental aspects. Designed to be easily accessible, with a start-to-finish approach, each chapter outlines the key practical aspects of a specific aspect of the topic. The author, a noted expert in the field, details specific applications of the techniques presented, including uses in environmental, food and industrial analysis. This edition: Emphasizes the importance of health and safety; Provides advanced information on sample preparation techniques; Presents an updated chapter on inductively coupled plasma mass spectrometry; Features a new chapter on current and future development in ICP technology and one on practical trouble shooting and routine maintenance. Practical Inductively Coupled Plasma Spectrometry offers a practical guide that can be used for undergraduate and graduate students in the broad discipline of analytical chemistry, which includes biomedical science, environmental science, food science and forensic science, in both distance and open-learning situations. It also provides an excellent reference for those in postgraduate training in these fields. Flap A new edition of this practical approach to sampling, experimentation, and applications in the field of inductively coupled plasma spectrometry The second edition of Practical Inductively Coupled Plasma Spectrometry discusses many of the significant developments in the field which have expanded inductively coupled plasma (ICP) spectrometry from a useful optical emission spectroscopic technique for trace element analysis into a source for both atomic emission spectrometry and mass spectrometry, capable of detecting elements at sub-ppb (ng mL-1) levels with good accuracy and precision. Comprising nine chapters, this new edition has been fully revised and updated in each chapter. It contains information on everything you need to practically know about the different types of instrumentation as well as pre- and post-experimental aspects. Designed to be easily accessible, with a start-to-finish approach, each chapter outlines the key practical aspects of a specific aspect of the topic. The author, a noted expert in the field, details specific applications of the techniques presented, including uses in environmental, food and industrial analysis. This edition: Emphasizes the importance of health and safety; Provides advanced information on sample preparation techniques; Presents an updated chapter on inductively coupled plasma mass spectrometry; Features a new chapter on current and future development in ICP technology and one on practical trouble shooting and routine maintenance. Practical Inductively Coupled Plasma Spectrometry offers a practical guide that can be used for undergraduate and graduate students in the broad discipline of analytical chemistry, which includes biomedical science, environmental science, food science and forensic science, in both distance and open-learning situations. It also provides an excellent reference for those in postgraduate training in these fields. Author Biography John R. Dean is Professor of Analytical and Environmental Sciences and Head of Subject (Analytical Sciences), in the Department of Applied Sciences, at Northumbria University where he has worked since 1988. He is a Chartered Scientist, Chartered Chemist, Fellow of the Royal Society of Chemistry and Principal Fellow of the Higher Education Academy. His broad and varied research interests include chemical measurement of potentially harmful elements, persistent organic pollutants and nanomaterials in environmental matrices to assess their human health risk assessment as well as analysis of volatile compounds from pathogenic bacteria for disease identification. Table of Contents About the Author xiii Preface xv Acknowledgements xix Acronyms, Abbreviations and Symbols xxiii 1 The Analytical Approach 1 1.1 Introduction 1 1.2 Essentials of Practical Work 2 1.3 Health and Safety 3 1.4 SI Units and Their Use 4 1.5 Significant Figures 11 1.6 Calibration and Quantitative Analysis 12 1.7 Making Notes of Practical Work and Observations 13 1.8 Data Analysis 14 1.9 Data Treatment 17 1.10 Data Quality 18 1.11 Data Interpretation and Context 21 1.12 Analytical Terms and Their Definitions 21 1.13 Summary 26 2 Sampling and Storage 27 2.1 Introduction 27 2.2 Sampling Soil 28 2.3 Sampling Water 31 2.4 Sampling Air 32 2.5 Sample Storage 34 2.6 Sample Preservation 36 2.7 Summary 37 3 Sample Preparation 39 3.1 Introduction 39 3.2 Aqueous Samples 40 3.2.1 Liquid–Liquid Extraction 40 3.2.1.1 Procedure for APDC Extraction in to MIBK 42 3.2.2 Ion Exchange 42 3.2.2.1 Procedure for Batch Ion Exchange Extraction 43 3.3 Solid Samples 43 3.3.1 Decomposition Techniques 45 3.3.1.1 Procedure for Acid Digestion A 46 3.3.1.2 Procedure for Acid Digestion B 46 3.3.1.3 Procedure for Microwave Acid Digestion 49 3.3.2 Alternate Decomposition Techniques 49 3.3.2.1 Procedure for Dry Ashing 49 3.3.2.2 Procedure for Fusion 50 3.4 Extraction Procedures 51 3.4.1 Procedure for Extractable Mercury from Soil and Sediment 52 3.4.2 Procedure for Speciation of Extractable Mercury from Soil and Sediment 52 3.4.3 Procedure for Arsenic Species Extraction 52 3.4.4 Single Extraction Methods 57 3.4.4.1 Procedure for EDTA Extraction 57 3.4.4.2 Procedure for AA Extraction 58 3.4.4.3 Procedure for Diethylenetriaminepentaacetic Acid (DTPA) Extraction 58 3.4.4.4 Procedure for Calcium Chloride (CaCl2) Extraction 58 3.4.4.5 Procedure for Ammonium Nitrate (NH4NO3) Extraction 59 3.4.4.6 Procedure for Sodium Nitrate (NaNO3) Extraction 60 3.4.5 Sequential Extraction 60 3.4.5.1 Procedure for Stage 1 Extraction 62 3.4.5.2 Procedure for Stage 2 Extraction 62 3.4.5.3 Procedure for Stage 3 Extraction 63 3.4.6 CISED 63 3.4.6.1 Procedure for CISED 64 3.4.7 In Vitro Gastrointestinal Extraction Method 65 3.4.7.1 Procedure for Gastric Extraction 66 3.4.7.2 Procedure for Gastric + Intestinal Extraction 67 3.4.8 In Vitro Simulated Epithelium Lung Fluid Method 67 3.4.8.1 Procedure for Inhalation Bioaccessibility Extraction 69 3.5 Summary 69 Reference 69 3.A Extraction Reagents for Single Extraction Methods 70 3.A.1 Preparation of EDTA, 50 mM 70 3.A.2 Preparation of AA, 0.43 M 70 3.A.3 Preparation of Diethylenetriaminepentaacetic Acid (DTPA), 5 mM 70 3.A.4 Preparation of Ammonium Nitrate (NH4NO3), 1 M 70 3.A.5 Preparation of Calcium Chloride (CaCl2), 0.01 M 70 3.A.6 Preparation of Sodium Nitrate (NaNO3), 0.1 M 71 3.B Extraction Reagents for the Sequential Extraction Method 71 3.B.1 Preparation of Solution A (Acetic Acid, 0.11 M) 71 3.B.2 Preparation of Solution B (Hydroxylamine Hydrochloride or Hydroxyammonium Chloride, 0.5 M) 71 3.B.3 Preparation of Solution C (Hydrogen Peroxide [300 mg g−1], 8.8 M) 71 3.B.4 Preparation of Solution D (Ammonium Acetate, 1 M) 71 3.C Extraction Reagents for the Unified Bioaccessibility Method 72 3.C.1 Preparation of Simulated Saliva Fluid 72 3.C.2 Preparation of Simulated Gastric Fluid 72 3.C.3 Preparation of Simulated Duodenal Fluid 72 3.C.4 Preparation of Simulated Bile Fluid 73 3.D Extraction Reagents for the In Vitro SELF 73 3.D.1 Preparation of SELF 73 4 Sample Introduction 75 4.1 Introduction 75 4.2 Nebulizers 76 4.3 Spray Chambers and Desolvation Systems 79 4.4 Discrete Sample Introduction 83 4.5 Continuous Sample Introduction 87 4.6 Hydride and ColdVapour Generation Techniques 91 4.7 Summary 93 References 93 5 The Inductively Coupled Plasma 95 5.1 Introduction 95 5.2 Radiofrequency Generators 96 5.3 Inductively Coupled Plasma Formation and Operation 96 5.4 Processes Within the ICP 106 5.5 Signal Processing and Instrument Control 106 5.6 Summary 107 References 108 6 Inductively Coupled Plasma–Atomic Emission Spectrometry 109 6.1 Introduction 110 6.2 Fundamentals of Spectroscopy 110 6.2.1 Origins of Atomic Spectra 111 6.2.2 Spectral Line Intensity 113 6.2.3 Spectral Line Broadening 114 6.3 Plasma Spectroscopy 116 6.4 Spectrometers 118 6.4.1 Sequential Spectrometer 122 6.4.2 Simultaneous Spectrometers 122 6.5 Detectors 125 6.5.1 Photomultiplier Tube 127 6.5.2 ChargeTransfer Devices 128 6.6 Interferences 130 6.7 Summary 131 References 132 7 Inductively Coupled Plasma–Mass Spectrometry 133 7.1 Introduction 133 7.2 Fundamentals of Mass Spectrometry 134 7.2.1 Some Terminology 134 7.3 Inorganic Mass Spectrometry 135 7.3.1 The Ion Source: ICP 137 7.3.2 The Interface 138 7.4 Mass Spectrometers 139 7.4.1 Quadrupole Mass Spectrometer 140 7.4.2 HighResolution Mass Spectrometers 142 7.4.3 IonTrap Mass Spectrometer 150 7.4.4 TimeofFlight Mass Spectrometer 152 7.5 Detectors 153 7.6 Interferences 156 7.6.1 Isobaric Interferences 156 7.6.2 Molecular Interferences 158 7.6.3 Remedies for Molecular Interferences 161 7.6.3.1 Charge Transfer 161 7.6.3.2 Proton Transfer 162 7.6.3.3 HydrogenAtom Transfer 162 7.6.3.4 Atom Transfer 162 7.6.3.5 Adduct Formation 162 7.6.4 NonSpectral Interferences: MatrixInduced 164 7.7 Isotope Dilution Analysis 165 7.8 Summary 176 References 176 8 Inductively Coupled Plasma: Current and Future Developments 177 8.1 Introduction 177 8.2 Comparison of ICP–AES and ICP–MS 177 8.3 Applications 182 8.4 Current and Future Developments 183 8.4.1 In General, for the ICP 184 8.4.2 For ICP–MS 185 8.4.3 For ICP–AES 189 8.5 Useful Resources 191 References 198 Further Reading 198 9 Inductively Coupled Plasma: Troubleshooting and Maintenance 201 9.1 Introduction 201 9.2 Diagnostic Issues 201 9.3 Tips to Reduce… 202 9.3.1 Potential Autosampler Issues 202 9.3.2 Contamination 202 9.4 Tips to Improve… 203 9.4.1 Sample Preparation 203 9.5 How To … 203 9.5.1 Unblock a Blocked Pneumatic Concentric Nebulizer 203 9.5.2 Clean the Spray Chamber 203 9.5.3 Clean the Plasma Torch 204 9.6 What to do About… 204 9.6.1 Plasma Ignition Problems 204 9.7 Shut Down Procedure (At the End of the Day) 204 9.8 Regular Maintenance Schedule 205 The Periodic Table 207 SI Units and Physical Constants 209 Index 213 Details ISBN1119478685 Year 2019 ISBN-10 1119478685 ISBN-13 9781119478683 Format Hardcover Country of Publication United States DEWEY 543.65 Edition 2nd Pages 248 Language English UK Release Date 2019-04-19 AU Release Date 2019-05-28 NZ Release Date 2019-05-28 Author John R. Dean Publisher John Wiley & Sons Inc Edition Description 2nd edition Publication Date 2019-04-19 Imprint John Wiley & Sons Inc Place of Publication New York Replaces 9780470093498 US Release Date 2019-04-19 Audience Professional & Vocational We've got this At The Nile, if you're looking for it, we've got it. With fast shipping, low prices, friendly service and well over a million items - you're bound to find what you want, at a price you'll love! 30 DAY RETURN POLICY No questions asked, 30 day returns! FREE DELIVERY No matter where you are in the UK, delivery is free. SECURE PAYMENT Peace of mind by paying through PayPal and eBay Buyer Protection TheNile_Item_ID:136206890;
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ISBN-13: 9781119478683
Book Title: Practical Inductively Coupled Plasma Spectrometry
Number of Pages: 248 Pages
Publication Name: Practical Inductively Coupled Plasma Spectrometry
Language: English
Publisher: John Wiley & Sons AND Sons LTD
Item Height: 229 mm
Subject: Chemistry
Publication Year: 2019
Type: Textbook
Item Weight: 538 g
Author: John R. Dean
Item Width: 161 mm
Format: Hardcover
