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• catalog contributor b10708874.
• catalog contributor b10708875.
• catalog created "c1998.".
• catalog date "1998".
• catalog date "c1998.".
• catalog dateCopyrighted "c1998.".
• catalog description "2.9.5 Monte Carlo simulations of atomization processes -- References -- Chapter 3. Quantitative GFAAS : Calibration -- 3.1 General analytical methodology -- 3.2 Calibration graphs -- 3.3 Method of standard additions -- 3.4 Method of internal standardization -- 3.5 Absolute analysis -- References -- Chapter 4. Instrumentation -- 4.1 Light sources -- 4.1.1 Hollow cathode lamps -- 4.1.2 Electrodeless discharge lamps -- 4.1.3 Xenon arc lamps -- 4.1.4 Semiconductor diode lasers -- 4.2 Graphite furnace -- 4.2.1 Graphite tube material and design -- 4.2.2 Furnace heating cycle -- 4.2.3 Methods of atomization -- 4.3 Wavelength selectors -- 4.3.1 Monochromators -- 4.3.2 Échelle monochromators -- 4.4 Detectors -- 4.5 Signal processing, readout, and instrumental control -- 4.6 Background correction -- 4.6.1 Nearby line (two-line) method -- 4.6.2 Continuum source method -- 4.6.3".
• catalog description "4.6.4.2 Inverse transverse ac Zeeman -- 4.6.4.3 Inverse transverse dc Zeeman -- 4.6.5 Comparison of background correction systems -- 4.7 Graphite furnace atomic emission spectrometry -- 4.8 Spectrometer designs -- 4.8.1 Single-element instruments -- 4.8.2 Multielement instruments -- References -- Chapter 5. Interference-Free Analysis -- 5.1 Spectral interferences -- 5.1.1 Spectral overlaps -- 5.1.2 Background attenuation -- 5.2 Chemical interferences -- 5.3 Physical interferences -- References -- Chapter 6. Sample Preparation and Introduction -- 6.1 Liquids -- 6.2 Gases -- 6.3 Solids -- 6.3.1 Wet decomposition -- 6.3.2 Combustion -- 6.3.3 Fusion -- 6.3.4 Summary of digestion procedures -- 6.3.5 Solids analysis with slurry sampling -- 6.3.6 Direct solid sampling -- 6.3.7 Laser ablation -- 6.4 Preconcentration/separation methods -- 6.4.1 Extraction -- 6.4.2. Chromatography --".
• catalog description "6.4.3 Flow injection analysis -- 6.4.4 Other preconcentration/separation methods -- 6.5 Metal speciation -- References -- Chapter 7. Practical Hints on the Determination of Elements by GFAAS -- 7.1 Applicability -- 7.2 Sampling, sample storage, and sample preparation -- 7.3 Quality control procedures -- 7.4 Development of GFAAS methods -- 7.5 Troubleshooting -- References -- Chapter 8. Commercial GFAAS Instrumentation: Types, Costs, and Training -- 8.1 Types and costs of GFAAS instrumentation -- 8.2 Consumables -- 8.3 Service and maintenance -- 8.4 Training -- Chapter 9. Future of GFAAS -- Appendix A. Historical background -- A.1 Early work in atomic spectroscopy (before 1955) -- A.2 Flame atomic absorption spectrometry -- A.3 Graphite furnace atomic absorption spectrometry -- References -- Appendix B. GFAAS Literature -- B.1 Books -- B.2 Periodicals -- B.3 Reviews -- B.4".
• catalog description "Chapter 1. Introduction -- Chapter 2. Theory -- 2.1 Spectroscopy -- 2.2 Introduction to atomic spectroscopy -- 2.3 Quantitative considerations of transitions -- 2.3.1 Population of atoms in a state : the Boltzmann distribution -- 2.3.2 Einstein coefficients -- 2.4 Electronic states of atoms -- 2.4.1 Quantum numbers for electrons -- 2.4.2 Coupling schemes, term symbols, and selection rules -- 2.4.3 Atomic spectra -- 2.5 Measures of transition strengths : transition probabilities and oscillator strengths -- 2.6 Spectral profiles of absorption lines -- 2.7 GFAAS analytical signal : absorbance -- 2.8 Intensity of absorbance in terms of fundamental parameters -- 2.9 Nature of the transient GFAAS signal : mechanism of atom formation in a graphite furnace -- 2.9.1 Surface processes -- 2.9.2 Heterogeneous solid-gas interactions -- 2.9.3 Gas-phase chemistry -- 2.9.4 Processes by which analyte is lost from the tube --".
• catalog description "Includes bibliographical references and index.".
• catalog description "Internet resources -- B.5 Applications of GFAAS -- References -- Appendix C. Conditions for GFAAS.".
• catalog description "Self-reversal (Smith-Hieftje) method -- 4.6.4 Zeeman effect method -- 4.6.4.1 Inverse longitudinal ac Zeeman --".
• catalog extent "xviii, 250 p. :".
• catalog hasFormat "Practical guide to graphite furnace atomic absorption spectrometry.".
• catalog identifier "0471125539 (cloth : alk. paper)".
• catalog isFormatOf "Practical guide to graphite furnace atomic absorption spectrometry.".
• catalog isPartOf "Chemical analysis ; v. 149".
• catalog issued "1998".
• catalog issued "c1998.".
• catalog language "eng".
• catalog publisher "New York : Wiley,".
• catalog relation "Practical guide to graphite furnace atomic absorption spectrometry.".
• catalog subject "543/.0858 21".
• catalog subject "Furnace atomic absorption spectroscopy.".
• catalog subject "QD96.A8 B87 1998".
• catalog tableOfContents "2.9.5 Monte Carlo simulations of atomization processes -- References -- Chapter 3. Quantitative GFAAS : Calibration -- 3.1 General analytical methodology -- 3.2 Calibration graphs -- 3.3 Method of standard additions -- 3.4 Method of internal standardization -- 3.5 Absolute analysis -- References -- Chapter 4. Instrumentation -- 4.1 Light sources -- 4.1.1 Hollow cathode lamps -- 4.1.2 Electrodeless discharge lamps -- 4.1.3 Xenon arc lamps -- 4.1.4 Semiconductor diode lasers -- 4.2 Graphite furnace -- 4.2.1 Graphite tube material and design -- 4.2.2 Furnace heating cycle -- 4.2.3 Methods of atomization -- 4.3 Wavelength selectors -- 4.3.1 Monochromators -- 4.3.2 Échelle monochromators -- 4.4 Detectors -- 4.5 Signal processing, readout, and instrumental control -- 4.6 Background correction -- 4.6.1 Nearby line (two-line) method -- 4.6.2 Continuum source method -- 4.6.3".
• catalog tableOfContents "4.6.4.2 Inverse transverse ac Zeeman -- 4.6.4.3 Inverse transverse dc Zeeman -- 4.6.5 Comparison of background correction systems -- 4.7 Graphite furnace atomic emission spectrometry -- 4.8 Spectrometer designs -- 4.8.1 Single-element instruments -- 4.8.2 Multielement instruments -- References -- Chapter 5. Interference-Free Analysis -- 5.1 Spectral interferences -- 5.1.1 Spectral overlaps -- 5.1.2 Background attenuation -- 5.2 Chemical interferences -- 5.3 Physical interferences -- References -- Chapter 6. Sample Preparation and Introduction -- 6.1 Liquids -- 6.2 Gases -- 6.3 Solids -- 6.3.1 Wet decomposition -- 6.3.2 Combustion -- 6.3.3 Fusion -- 6.3.4 Summary of digestion procedures -- 6.3.5 Solids analysis with slurry sampling -- 6.3.6 Direct solid sampling -- 6.3.7 Laser ablation -- 6.4 Preconcentration/separation methods -- 6.4.1 Extraction -- 6.4.2. Chromatography --".
• catalog tableOfContents "6.4.3 Flow injection analysis -- 6.4.4 Other preconcentration/separation methods -- 6.5 Metal speciation -- References -- Chapter 7. Practical Hints on the Determination of Elements by GFAAS -- 7.1 Applicability -- 7.2 Sampling, sample storage, and sample preparation -- 7.3 Quality control procedures -- 7.4 Development of GFAAS methods -- 7.5 Troubleshooting -- References -- Chapter 8. Commercial GFAAS Instrumentation: Types, Costs, and Training -- 8.1 Types and costs of GFAAS instrumentation -- 8.2 Consumables -- 8.3 Service and maintenance -- 8.4 Training -- Chapter 9. Future of GFAAS -- Appendix A. Historical background -- A.1 Early work in atomic spectroscopy (before 1955) -- A.2 Flame atomic absorption spectrometry -- A.3 Graphite furnace atomic absorption spectrometry -- References -- Appendix B. GFAAS Literature -- B.1 Books -- B.2 Periodicals -- B.3 Reviews -- B.4".
• catalog tableOfContents "Chapter 1. Introduction -- Chapter 2. Theory -- 2.1 Spectroscopy -- 2.2 Introduction to atomic spectroscopy -- 2.3 Quantitative considerations of transitions -- 2.3.1 Population of atoms in a state : the Boltzmann distribution -- 2.3.2 Einstein coefficients -- 2.4 Electronic states of atoms -- 2.4.1 Quantum numbers for electrons -- 2.4.2 Coupling schemes, term symbols, and selection rules -- 2.4.3 Atomic spectra -- 2.5 Measures of transition strengths : transition probabilities and oscillator strengths -- 2.6 Spectral profiles of absorption lines -- 2.7 GFAAS analytical signal : absorbance -- 2.8 Intensity of absorbance in terms of fundamental parameters -- 2.9 Nature of the transient GFAAS signal : mechanism of atom formation in a graphite furnace -- 2.9.1 Surface processes -- 2.9.2 Heterogeneous solid-gas interactions -- 2.9.3 Gas-phase chemistry -- 2.9.4 Processes by which analyte is lost from the tube --".
• catalog tableOfContents "Internet resources -- B.5 Applications of GFAAS -- References -- Appendix C. Conditions for GFAAS.".
• catalog tableOfContents "Self-reversal (Smith-Hieftje) method -- 4.6.4 Zeeman effect method -- 4.6.4.1 Inverse longitudinal ac Zeeman --".
• catalog title "A practical guide to graphite furnace atomic absorption spectrometry / David J. Butcher, Joseph Sneddon.".
• catalog type "text".