Application of IC-MS and IC-ICP-MS in Environmental Research
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portes grátis
Application of IC-MS and IC-ICP-MS in Environmental Research
Michalski, Rajmund
John Wiley & Sons Inc
07/2016
288
Dura
Inglês
9781118862001
15 a 20 dias
Descrição não disponível.
List of Contributors ix Preface xi 1 Principles and Applications of Ion Chromatography 1 Rajmund Michalski 1.1 Principles of Ion Chromatography, 1 1.1.1 Introduction, 1 1.1.2 Stationary Phases, 6 1.1.3 Eluents, 13 1.1.4 Suppressors, 16 1.1.5 Detection Methods, 18 1.2 Ion Chromatography Applications, 23 1.2.1 Speciation Analysis with the Hyphenated Methods of IC-ICP-MS and IC-MS, 29 1.3 Sample Preparation for Ion Chromatography, 32 1.4 Selected Methodological Aspects of Ion Determination with Ion Chromatography, 34 1.5 Ion Chromatography Development Perspectives, 37 1.6 References, 37 2 Mass Spectrometric Detectors for Environmental Studies 47 Maria Balcerzak 2.1 Introduction, 47 2.2 Mass Spectrometric Detectors, 49 2.2.1 Ionization Methods, 50 2.2.2 Mass Analyzers, 58 Acknowledgments, 62 2.3 References, 62 3 High-Performance Liquid Chromatography Coupled to Inductively Coupled Plasma MS/Electrospray Ionization MS 79 Jurgen Mattusch 3.1 Separation Principles, 79 3.1.1 Ion Chromatography (Anion/Cation Exchange, Mixed Mode), 80 3.1.2 High-Performance Liquid Chromatography (Reversed-Phase Mode, HILIC), 81 3.1.3 Size Exclusion Chromatography (SEC) (Gel Filtration Chromatography, GFC), 82 3.2 Detection Principles, 83 3.2.1 Common Detection in IC: Conductivity, UV Vis, Electrochemical Detection, 83 3.2.2 Element Specific Detection, 83 3.3 Hyphenated Techniques, 87 3.3.1 HPLC(IC) ICP-MS, 87 3.4 HPLC(IC) ICP-MS/ESI-MS, 90 3.4.1 Fundamentals, 90 3.4.2 Methodology of Data Evaluation, 90 3.4.3 Technical Requirements, 91 3.5 Applications and Conclusion, 91 3.6 References, 102 4 Application of IC-MS in Organic Environmental Geochemistry 109 Klaus Fischer 4.1 Introduction, 109 4.2 Carboxylic Acids, 114 4.2.1 Molecular Structure, Molecular Interaction Potential, and Chromatographic Retention, 114 4.2.2 Environmental Analysis of Carboxylic Acids by Ion Exclusion Chromatography Mass Spectrometry (HPICE-MS), 116 4.2.3 Environmental Analysis of Carboxylic Acids by Ion-Exchange Chromatography Mass Spectrometry (HPI-EC-MS), 124 4.3 Carbohydrates, 135 4.3.1 Structural Diversity and Ion Chromatographic Behavior, 135 4.3.2 Environmental Analysis of Carbohydrates by Various IC-MS Methods, 136 4.4 Amines and Amino Acids, 143 4.5 Trends and Perspectives, 144 4.6 References, 145 5 Analysis of Oxyhalides and Haloacetic Acids in Drinking Water Using IC-MS and IC-ICP-MS 152 Koji Kosaka 5.1 Introduction, 152 5.2 Source of Oxyhalides and HAAs, 154 5.3 Analysis of Oxyhalides and HAAs, 158 5.3.1 Suppressed IC-MS, 158 5.3.2 Nonsuppressed IC-MS and LC-MS, 162 5.3.3 IC-ICP-MS, 165 5.4 Application for Monitoring of Oxyhalides and HAAs in Drinking Water, 166 5.4.1 Oxyhalides, 166 5.4.2 HAAs, 171 Summary, 171 5.5 References, 172 6 Analysis of Various Anionic Metabolites in Plant and Animal Material by IC-MS 178 Adam Konrad Jagielski and Michal Usarek 6.1 Introduction, 178 6.2 Optimization of HPIC and Ms Settings, 179 6.2.1 HPIC Settings, 179 6.2.2 MS Settings, 183 6.2.3 HPIC-MS Settings, 185 6.2.4 Extraction of Metabolites from Cells and Tissues, 189 6.3 Application of the Method in Analysis of Metabolites in Plant and Animal Material, 191 6.3.1 Analysis of Metabolites from Cell Cultures (Primary Cultures as well as Established Cell Lines), 192 6.3.2 Analysis of Metabolites from Solid Tissues, 192 6.3.3 Extraction of Metabolites from Plants, 194 6.4 Conclusions, 196 6.5 References, 197 7 Analysis of Perchlorate Ion in Various Matrices Using Ion Chromatography Hyphenated with Mass Spectrometry 199 Jay Gandhi 7.1 Introduction, 199 7.2 Precautions Unique to Ion Chromatography Mass Spectrometry, 200 7.2.1 Instrumental and Operating Parameters, 201 7.3 Results and Discussion, 204 Acknowledgment, 209 7.4 References, 209 8 Sample Preparation Techniques for Ion Chromatography 210 Wolfgang Frenzel and Rajmund Michalski 8.1 Introduction, 210 8.2 When and Why is Sample Preparation Required in Ion Chromatography? 213 8.3 Automation of Sample Preparation (IN-LINE Techniques), 215 8.4 Sample Preparation Methods, 217 8.4.1 Filtration and Ultrafiltration, 219 8.4.2 Solid-Phase Extraction (SPE), 220 8.4.3 Liquid Liquid Extraction, 225 8.4.4 Gas-Phase Separations, 226 8.4.5 Precipitation, 226 8.4.6 Membrane-Based Separations and Sample Treatment, 227 8.5 Trace Analysis and Preconcentration for Ion Chromatographic Analysis, 238 8.5.1 Preconcentration Using SPE, 239 8.5.2 Membrane-Based In-Line Preconcentration, 241 8.6 In-Line Preseparations Using Two-Dimensional Ion Chromatography (2D-IC), 243 8.7 Sample Preparation of Solid Samples, 244 8.7.1 Dissolution and Aqueous or Acid Extraction, 246 8.7.2 Wet-Chemical Acid Digestions, 247 8.7.3 UV Photolytic Digestion, 248 8.7.4 Fusion Methods, 249 8.7.5 Dry Ashing and Combustion Methods, 249 8.8 Air Analysis Using Ion Chromatography Application to Gases and Particulate Matter, 251 8.9 Postcolumn Eluent Treatment Prior to Ms Detection, 255 8.10 Concluding Remarks, 257 8.11 References, 258 Index 267
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List of Contributors ix Preface xi 1 Principles and Applications of Ion Chromatography 1 Rajmund Michalski 1.1 Principles of Ion Chromatography, 1 1.1.1 Introduction, 1 1.1.2 Stationary Phases, 6 1.1.3 Eluents, 13 1.1.4 Suppressors, 16 1.1.5 Detection Methods, 18 1.2 Ion Chromatography Applications, 23 1.2.1 Speciation Analysis with the Hyphenated Methods of IC-ICP-MS and IC-MS, 29 1.3 Sample Preparation for Ion Chromatography, 32 1.4 Selected Methodological Aspects of Ion Determination with Ion Chromatography, 34 1.5 Ion Chromatography Development Perspectives, 37 1.6 References, 37 2 Mass Spectrometric Detectors for Environmental Studies 47 Maria Balcerzak 2.1 Introduction, 47 2.2 Mass Spectrometric Detectors, 49 2.2.1 Ionization Methods, 50 2.2.2 Mass Analyzers, 58 Acknowledgments, 62 2.3 References, 62 3 High-Performance Liquid Chromatography Coupled to Inductively Coupled Plasma MS/Electrospray Ionization MS 79 Jurgen Mattusch 3.1 Separation Principles, 79 3.1.1 Ion Chromatography (Anion/Cation Exchange, Mixed Mode), 80 3.1.2 High-Performance Liquid Chromatography (Reversed-Phase Mode, HILIC), 81 3.1.3 Size Exclusion Chromatography (SEC) (Gel Filtration Chromatography, GFC), 82 3.2 Detection Principles, 83 3.2.1 Common Detection in IC: Conductivity, UV Vis, Electrochemical Detection, 83 3.2.2 Element Specific Detection, 83 3.3 Hyphenated Techniques, 87 3.3.1 HPLC(IC) ICP-MS, 87 3.4 HPLC(IC) ICP-MS/ESI-MS, 90 3.4.1 Fundamentals, 90 3.4.2 Methodology of Data Evaluation, 90 3.4.3 Technical Requirements, 91 3.5 Applications and Conclusion, 91 3.6 References, 102 4 Application of IC-MS in Organic Environmental Geochemistry 109 Klaus Fischer 4.1 Introduction, 109 4.2 Carboxylic Acids, 114 4.2.1 Molecular Structure, Molecular Interaction Potential, and Chromatographic Retention, 114 4.2.2 Environmental Analysis of Carboxylic Acids by Ion Exclusion Chromatography Mass Spectrometry (HPICE-MS), 116 4.2.3 Environmental Analysis of Carboxylic Acids by Ion-Exchange Chromatography Mass Spectrometry (HPI-EC-MS), 124 4.3 Carbohydrates, 135 4.3.1 Structural Diversity and Ion Chromatographic Behavior, 135 4.3.2 Environmental Analysis of Carbohydrates by Various IC-MS Methods, 136 4.4 Amines and Amino Acids, 143 4.5 Trends and Perspectives, 144 4.6 References, 145 5 Analysis of Oxyhalides and Haloacetic Acids in Drinking Water Using IC-MS and IC-ICP-MS 152 Koji Kosaka 5.1 Introduction, 152 5.2 Source of Oxyhalides and HAAs, 154 5.3 Analysis of Oxyhalides and HAAs, 158 5.3.1 Suppressed IC-MS, 158 5.3.2 Nonsuppressed IC-MS and LC-MS, 162 5.3.3 IC-ICP-MS, 165 5.4 Application for Monitoring of Oxyhalides and HAAs in Drinking Water, 166 5.4.1 Oxyhalides, 166 5.4.2 HAAs, 171 Summary, 171 5.5 References, 172 6 Analysis of Various Anionic Metabolites in Plant and Animal Material by IC-MS 178 Adam Konrad Jagielski and Michal Usarek 6.1 Introduction, 178 6.2 Optimization of HPIC and Ms Settings, 179 6.2.1 HPIC Settings, 179 6.2.2 MS Settings, 183 6.2.3 HPIC-MS Settings, 185 6.2.4 Extraction of Metabolites from Cells and Tissues, 189 6.3 Application of the Method in Analysis of Metabolites in Plant and Animal Material, 191 6.3.1 Analysis of Metabolites from Cell Cultures (Primary Cultures as well as Established Cell Lines), 192 6.3.2 Analysis of Metabolites from Solid Tissues, 192 6.3.3 Extraction of Metabolites from Plants, 194 6.4 Conclusions, 196 6.5 References, 197 7 Analysis of Perchlorate Ion in Various Matrices Using Ion Chromatography Hyphenated with Mass Spectrometry 199 Jay Gandhi 7.1 Introduction, 199 7.2 Precautions Unique to Ion Chromatography Mass Spectrometry, 200 7.2.1 Instrumental and Operating Parameters, 201 7.3 Results and Discussion, 204 Acknowledgment, 209 7.4 References, 209 8 Sample Preparation Techniques for Ion Chromatography 210 Wolfgang Frenzel and Rajmund Michalski 8.1 Introduction, 210 8.2 When and Why is Sample Preparation Required in Ion Chromatography? 213 8.3 Automation of Sample Preparation (IN-LINE Techniques), 215 8.4 Sample Preparation Methods, 217 8.4.1 Filtration and Ultrafiltration, 219 8.4.2 Solid-Phase Extraction (SPE), 220 8.4.3 Liquid Liquid Extraction, 225 8.4.4 Gas-Phase Separations, 226 8.4.5 Precipitation, 226 8.4.6 Membrane-Based Separations and Sample Treatment, 227 8.5 Trace Analysis and Preconcentration for Ion Chromatographic Analysis, 238 8.5.1 Preconcentration Using SPE, 239 8.5.2 Membrane-Based In-Line Preconcentration, 241 8.6 In-Line Preseparations Using Two-Dimensional Ion Chromatography (2D-IC), 243 8.7 Sample Preparation of Solid Samples, 244 8.7.1 Dissolution and Aqueous or Acid Extraction, 246 8.7.2 Wet-Chemical Acid Digestions, 247 8.7.3 UV Photolytic Digestion, 248 8.7.4 Fusion Methods, 249 8.7.5 Dry Ashing and Combustion Methods, 249 8.8 Air Analysis Using Ion Chromatography Application to Gases and Particulate Matter, 251 8.9 Postcolumn Eluent Treatment Prior to Ms Detection, 255 8.10 Concluding Remarks, 257 8.11 References, 258 Index 267
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