Gas%20Chromatography:%20Detectors - PowerPoint PPT Presentation

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Title: Gas%20Chromatography:%20Detectors


1
Gas Chromatography Detectors
2
The Ideal Detector
  • Adequate sensitivity - range 10-18 to 10-15 g
    analyte/s
  • good stability and reproducibility
  • a linear response to analyte that extends over
    several orders of magnitude
  • a temperature range from room temperature to at
    least 400 degrees C

3
The Ideal Detector
  • A short response time that is independent of flow
    rate
  • high reliability and ease of use
  • similarity in response toward all analytes of
    alternatively a higher predictable and selective
    response toward classes of ananlytes
  • nondestructive of sample

4
Types of Detectors
  • Thermal Conductivity Detector
  • Thermionic Detectors
  • Atomic Emission Detector
  • Flame Ionization Detector
  • Electron Capture Detector

5
Thermal Conductivity Detector (TCD)
  • Q. How does this work?
  • Answer
  • Electronically measures the changes in the
    thermal conductivity of the gas.
  • The thermal conductivity changes due to the
    presence of the analyte

6
The Modulate Single Filament (TCD)
  • A method to get rid of some noise !
  • How?
  • Both the analytical and reference gases are
    passed altrenately over a tiny filament
  • This is done at a set frequency, that sets the
    frequency of the output of the electrical signal
  • The amplitude fo the signal is proportional to
    the difference in the thermal conductivity of
    both gases

7
TCD
  • What is the best type of carrier gas for the TCD?
  • He and H have high thermal conductivity therefore
    they show the presence of other components of the
    gas because of the large drop in thermal
    conductivity
  • Other gases are not used in TCD

8
Advantages
  • simplicity
  • large linear dynamic range ( about 105)
  • general response to organic and inorganic samples
  • non-destructive character

9
Limitations
  • Low sensitivity (10-8 solute/mL carrier gas)
  • Others exceed this by factor of 104 to 107

10
Thermionic Detectors (TID)
  • How does this work?
  • The effluent is mixed with H
  • Passes through a flame tip assembly to ignite
  • Hot gas flows around an electrically heated
    rubidium silicate bead
  • Heated bead forms a plasma
  • What occurs in the plasma to produce large
    amounts of ions for D and N containing molecules
    is not understood

11
TID
  • There is a large ion current that results

12
Advantages
  • Selective for organic compounds with P and N
  • This is useful for detecting pesticides that
    contain P

13
Atomic Emission Detection (AED)
  • Eluent introduced into a microwave - energized
    helium plasma coupled to a diode-array optical
    spectrometer
  • Plasma sufficiently energetic to atomize all of
    the elements in the sample and excite their
    characteristic atomic emission spectra

14
AED
  • Spectra observed using a spectrometer that
    employs a movable, flat diode array is capable of
    detecting omitted radiation between 170 to 1780
    nm
  • The positional diode array is capable of
    measuring 2 to 4 elements at any given setting
  • Present software allows measurement of the
    concentration of 15 elements

15
Flame Ionization Detector
  • Consists of a stainless steel burner assembly
    installed in the detector compartment and a
    electrometer system in a separate unit adjacent
    to the gas chromatograph
  • Often it is installed in the tandem with the
    thermal conductivity cell
  • Effluent form the column enters burner base
    through millipore filters which remove
    contaminates

16
Flame Ionization Detector
  • hydrogen mixed with gas stream at bottom of jet
    and air or oxygen is supplied axially around the
    jet
  • hydrogen flame burns at the tip, which also
    functions as the cathode and is insulated form
    the body by a ceramic seal
  • Collector electrode is above the burner tip and
    is made of platinum

17
Flame Ionization Detector
  • In series with flame gases is a selection of
    resistors 107 to 1010 ohms
  • vibrating reed electrometer used to provide
    sensitivities up to 5 x 1013 Amps
  • Carbon counting device that produces a current
    proportional to number of ions or electrons
    formed in the flamed gases

18
Flame Ionization Detector
  • Responds to all organic compounds except for
    formic acid
  • Response greatest with hydrocarbons and decreases
    with substitution
  • Except for vapor of elements in Groups I and II,
    does not respond to inorganic compounds
  • Sensitivity high due to low noise level

19
Flame Ionization Detector
  • Insensitivity to water, the permanent gases, and
    inorganic compounds simplifies the resolution of
    components in analysis of aqueous extracts and in
    air pollution studies

20
Electron Capture Detector
  • operates similar to proportional counter for
    measurement of X-radiation
  • effluent form the column passes over a
    beta-emitter - I.e.) nickel-63 or tritium

21
ECD
  • electron from emitter causes ionization of
    carrier gas (N)
  • produces a burst of electrons
  • standing current between electrodes decreases in
    presence of organic species that capture the
    electrons

22
ECD
  • selective in its response and highly sensitive
  • Hewlett Packard makes one with a detection limit
    of less than 8 fg/sec for lindane
  • sensitive toward molecules with electronegative
    functional groups (halogens, peroxides, quinones,
    nitro groups)
  • insensitive towards amines, alcohols and
    hydrocarbons

23
ECD
  • important application detection and
    determination of chlorinated insecticides
  • advantages
  • does not alter the sample significantly (in
    contrast to flame detection)
  • quick and easy
  • relatively cheap

24
ECD
  • disadvantage linear response range is usually
    limited to around 2 orders of magnitude
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