User:Aghump/Books/Instrumental Analysis Essentials

Passing the Final Exam

 * Chapter 1 - Concentration
 * Parts-per notation
 * Molar concentration
 * Calibration curve
 * Standard addition
 * Internal standard


 * Chapter 2 - Chromatography
 * Affinity chromatography
 * Column chromatography
 * Displacement chromatography
 * Electrochromatography
 * Gas chromatography
 * High-performance liquid chromatography
 * Capillary electrochromatography
 * Ion chromatography
 * Micellar electrokinetic chromatography
 * Paper chromatography
 * Reversed-phase chromatography
 * Size-exclusion chromatography
 * Thin-layer chromatography
 * Two-dimensional chromatography
 * Van Deemter equation


 * Chapter 3 - Fundamental Spectroscopy
 * Raman spectroscopy
 * Rayleigh scattering
 * Fluorescence
 * Phosphorescence
 * Jablonski diagram
 * Emission spectrum
 * Mie scattering
 * Beer–Lambert law


 * Chapter 4 - Applied Spectroscopy Techniques
 * Inductively coupled plasma atomic emission spectroscopy
 * Atomic absorption spectroscopy
 * Fourier transform infrared spectroscopy
 * Ultraviolet–visible spectroscopy
 * Interferometry
 * Diffraction
 * Laser
 * Flame test


 * Chapter 5 - Mass Spectrometry
 * Mass spectrometry
 * Fast atom bombardment
 * Electron ionization
 * Chemical ionization
 * Electrospray ionization
 * Quadrupole mass analyzer
 * Time-of-flight mass spectrometry
 * Electron multiplier
 * Faraday cup
 * Carbon-13
 * Infrared multiphoton dissociation


 * Chapter 6 - Nuclear Magnetic Resonance (NMR)
 * Nuclear magnetic resonance
 * Magic angle spinning
 * Two-dimensional nuclear magnetic resonance spectroscopy
 * Carbon-13 NMR
 * Proton NMR


 * Chapter 1 - Concentration
 * Parts-per notation
 * Molar concentration
 * Calibration curve
 * Standard addition
 * Internal standard


 * Chapter 2 - Chromatography
 * Affinity chromatography
 * Column chromatography
 * Displacement chromatography
 * Electrochromatography
 * Gas chromatography
 * High-performance liquid chromatography
 * Capillary electrochromatography
 * Ion chromatography
 * Micellar electrokinetic chromatography
 * Paper chromatography
 * Reversed-phase chromatography
 * Size-exclusion chromatography
 * Thin-layer chromatography
 * Two-dimensional chromatography
 * Van Deemter equation


 * Chapter 3 - Fundamental Spectroscopy
 * Raman spectroscopy
 * Rayleigh scattering
 * Fluorescence
 * Phosphorescence
 * Jablonski diagram
 * Emission spectrum
 * Mie scattering
 * Beer–Lambert law


 * Chapter 4 - Applied Spectroscopy Techniques
 * Inductively coupled plasma atomic emission spectroscopy
 * Atomic absorption spectroscopy
 * Fourier transform infrared spectroscopy
 * Ultraviolet–visible spectroscopy
 * Interferometry
 * Diffraction
 * Laser
 * Flame test


 * Chapter 5 - Mass Spectrometry
 * Mass spectrometry
 * Fast atom bombardment
 * Electron ionization
 * Chemical ionization
 * Electrospray ionization
 * Quadrupole mass analyzer
 * Time-of-flight mass spectrometry
 * Electron multiplier
 * Faraday cup
 * Carbon-13
 * Infrared multiphoton dissociation


 * Chapter 6 - Nuclear Magnetic Resonance (NMR)
 * Nuclear magnetic resonance
 * Magic angle spinning
 * Two-dimensional nuclear magnetic resonance spectroscopy
 * Carbon-13 NMR
 * Proton NMR


 * Chapter 7 - Electrochemistry
 * Electrochemistry
 * Pourbaix diagram
 * Voltammetry
 * Coulometry
 * Polarography
 * Potentiometer (measuring instrument)
 * Ion selective electrode
 * Hanging mercury drop electrode
 * Rotating ring-disk electrode
 * Reference electrode
 * Working electrode


 * Chapter 8 - Nuclear methods