Keyphrases
Method Development
100%
Membrane Inlet Mass Spectrometry
100%
Desorption Technique
100%
Air Analysis
100%
Volatile Organic Compounds
55%
Mass Spectrometry Methods
55%
Water Samples
44%
Air Sampling
22%
Mass Spectrometer
22%
Semi-volatile Compounds
22%
Release Process
22%
Aqueous Samples
22%
Chemical Ionization
22%
Atmospheric Pressure
11%
On-site Measurement
11%
Gas Chromatography-mass Spectrometry
11%
Aqueous Solution
11%
Desorption
11%
Response Time
11%
Environmental Analysis
11%
Rapid Analysis
11%
Dicarboxylic Acids
11%
Volatile Sulfur Compounds
11%
Thin Membrane
11%
Biochemical Analysis
11%
Novel Technique
11%
Liquid Sample
11%
Mass Spectrometry Detection
11%
Desorbed
11%
Caffeine
11%
Polar Compounds
11%
Low Detection Limit
11%
Ionization Techniques
11%
Electron Ionization
11%
Membrane Inlet
11%
Temperature Programmed Desorption
11%
Silicone Membrane
11%
Static Headspace Gas Chromatography
11%
Gaseous Samples
11%
Gas Purge
11%
Mobile Laboratory
11%
Polydimethylsiloxane Membrane
11%
Hydrophilic Membrane
11%
Limit of Detection
11%
Semi-volatiles
11%
INIS
membranes
100%
air
100%
desorption
100%
mass spectrometry
100%
volatility
40%
water
33%
organic compounds
33%
traps
20%
ionization
20%
mass spectrometers
13%
mass spectroscopy
13%
gas chromatography
13%
detection limits
13%
levels
6%
interfaces
6%
electrons
6%
solvents
6%
detection
6%
atmospheric pressure
6%
heat
6%
liquids
6%
gases
6%
laboratories
6%
filaments
6%
aqueous solutions
6%
sulfur compounds
6%
reagents
6%
biochemistry
6%
dicarboxylic acids
6%
silicones
6%
caffeine
6%
polar compounds
6%
temperature programmed desorption
6%
Chemistry
Desorption
100%
Mass Spectrometry
100%
Volatile Organic Compound
55%
Mass Spectrometry
22%
Ionization
11%
Gas Chromatography Mass Spectrometry (GCMS)
11%
Filament
11%
Sulfur Compound
11%
Chemical Ionization
11%
Headspace Gas Chromatography
11%
Desorption Chemical Ionization (DCI)
11%
Environmental Analysis
11%
Dicarboxylic Acid
11%
Aqueous Solution
11%
Solution
11%