User:Tmcgreggor/Books/Concepts and Techniques in Instrumental Analysis Tysheon McGreggor

Chapter 2

 * 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 spectroscopy
 * Phosphorescence
 * Jablonski diagram
 * Emission spectrum
 * Mie scattering
 * Beer–Lambert law


 * Chapter 4 Applied Spectroscopy Techniques
 * Atomic absorption spectroscopy
 * Inductively coupled plasma atomic emission spectroscopy
 * Ultraviolet–visible spectroscopy
 * Fourier transform infrared 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
 * Infrared multiphoton dissociation
 * Carbon-13


 * Chapter 6 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 disk electrode
 * Reference electrode
 * Working electrode


 * Chapter 8 Nuclear Methods
 * Liquid scintillation counting
 * Geiger counter
 * Dosimeter
 * Ionizing radiation


 * Chapter 9 Singal to Noise Ratio's
 * Signal-to-noise ratio
 * Johnson–Nyquist noise
 * Shot noise
 * Flicker noise
 * Environmental noise
 * Noise reduction coefficient
 * Noise reduction


 * Chapter 10 Micro, nano, pico,and femtochemistry
 * Microfluidics
 * DNA microarray
 * Micropump
 * Nanochemistry
 * Microelectronics
 * Femtochemistry


 * Chapter 11 Different Physical States Used in Different Analytical Techniques
 * Solvent
 * Acid
 * Base (chemistry)
 * Redox
 * Plasma (physics)
 * Supercritical fluid


 * Chapter 12 Extraction Techniques
 * Liquid–liquid extraction
 * Solubility
 * Extraction (chemistry)
 * Thin Layer Extraction
 * Partition coefficient
 * 1-Octanol


 * Chapter 13 Surface Techniques
 * Scanning tunneling microscope
 * Atomic force microscopy
 * Auger electron spectroscopy
 * X-ray photoelectron spectroscopy
 * Energy-dispersive X-ray spectroscopy
 * X-ray fluorescence
 * Mössbauer effect
 * Scanning electron microscope