- Section A – The nature and scope of analytical chemistry Preface ix
- A1 Analytical chemistry, its functions and applications
- A2 Analytical problems and procedures
- A3 Analytical techniques and methods
- A4 Sampling and sample handling
- A5 Calibration and standards
- A6 Quality in analytical laboratories
- Section B −Assessment of data
- B1 Errors in analytical measurements
- B2 Assessment of accuracy and precision
- B3 Significance testing
- B4 Calibration and linear regression
- B5 Quality control and chemometrics
- Section C −Analytical reactions in solution
- C1 Solution equilibria
- C2 Electrochemical reactions
- C3 Potentiometry
- C4 pH and its control
- C5 Titrimetry I: acid–base titrations
- C6 Complexation, solubility and redox equilibria
- titrations C7 Titrimetry II: complexation, precipitation and redox
- C8 Gravimetry
- C9 Voltammetry and amperometry
- C10 Conductimetry
- Section D −Separation techniques
- D1 Solvent and solid-phase extraction
- D2 Principles of chromatography
- D3 Thin-layer chromatography
- D4 Gas chromatography: principles and instrumentation
- D5 Gas chromatography: procedures and applications
- and instrumentation D6 High-performance liquid chromatography: principles
- procedures and applications D7 High-performance liquid chromatography: modes,
- and instrumentation D8 Electrophoresis and electrochromatography: principles
- procedures and applications D9 Electrophoresis and electrochromatography: modes,
- Section A – The nature and scope of analytical chemistry Preface ix
- Section E −Spectrometric techniques
- E1 Electromagnetic radiation and energy levels
- E2 Atomic and molecular spectrometry
- E3 Spectrometric instrumentation
- E4 Flame atomic emission spectrometry
- E5 Inductively coupled plasma spectrometry
- E6 X-ray emission spectrometry
- E7 Atomic absorption and atomic fluorescence spectrometry
- principles and instrumentation E8 Ultraviolet and visible molecular spectrometry:
- applications E9 Ultraviolet and visible molecular spectrometry:
- instrumentation E10 Infrared and Raman spectrometry: principles and
- E11 Infrared and Raman spectrometry: applications
- and instrumentation E12 Nuclear magnetic resonance spectrometry: principles
- of proton and carbon-13 spectra E13 Nuclear magnetic resonance spectrometry: interpretation
- E14 Mass spectrometry
- Section F −Combined techniques
- F1 Advantages of combined techniques
- techniques data F2 Sample identification using multiple spectrometric
- F3 Gas chromatography–mass spectrometry
- F4 Gas chromatography–infrared spectrometry
- F5 Liquid chromatography–mass spectrometry
- F1 Advantages of combined techniques
- Section G −Thermal methods
- G1 Thermogravimetry
- calorimetry G2 Differential thermal analysis and differential scanning
- G3 Thermomechanical analysis
- G4 Evolved gas analysis
- G1 Thermogravimetry
- Section H – Sensors, automation and computing
- H1 Chemical sensors and biosensors
- H2 Automated procedures
- H3 Computer control and data collection
- H4 Data enhancement and databases
- Further reading
- Index
tina meador
(Tina Meador)
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