Difference between revisions of "Chromatography detector"

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A '''chromatography detector''' is a device used in [[gas chromatography]] (GC) or [[liquid chromatography]] (LC) to visualize components of the mixture being eluted off the chromatography column.
A '''chromatography detector''' is a device used in [[gas chromatography]] (GC) or [[liquid chromatography]] (LC) to visualize components of the mixture being eluted off the chromatography column.  
 
There are two general types of detectors: destructive and non-destructive. A destructive detector performs continuous transformation of the column effluent (by burning, evaporating, or mixing with reagents), with a subsequent measurement of some physical property of the resulting material (plasma, aerosol, or reaction mixture). A non-destructive detector directly measures some property of the column effluent (UV absorption, for example) and thus affords for further analyte recovery.
 
==Destructive detector==
 
Examples of destructive detectors include:
* Flame ionization detector: The column effluent is injected into hydrogen flame and the flame conductivity is measured. This detector is only used in gas chromatography.
* Flame photometric detector: Column eluate is burned in a hydrogen flame. The light of the flame is filtered through an optical filter, allowing the detection of sulfur and phosphorus.
* Atomic-emission detector: The column effluent is injected into plasma and the plasma spectrum is recorded. This detector allows for immediate determination of the elements present in the analyte.<ref name="Zall">{{cite journal|journal=Journal of Analytical Chemistry|year=2007|pages=1069–1074|title=Using gas chromatography with atomic emission detection for determining organic pollutants in water |author=Vozhdaeva, M. Y., L. G. Tsypysheva, L. I. Kantor, and E. A. Kantor |url=http://www.springerlink.com/content/dwt287h196g4v622/}}</ref>
* Mass spectrometry detector: The column effluent is continuously injected into a [[Mass spectrometry|mass spectrometer]]. This detector allows for immediate determination of the molecular weight of analyte and/or the fragmentation pattern, thus providing a significant amount of information about analyte.
* Nitrogen phosphorus detector: This detector is only used only in gas chromatography.
* Evaporative light scattering detector: The column effluent is continuously evaporated and the light scattering of the resulting aerosol is measured. This detector is only used in liquid chromatography.<ref>{{cite web_short|url=http://www.cyberlipid.org/elsd/elsd0001.htm |title=Light-scattering and Charged Aerosol Detectors |publisher=CyberLipid.org |date=31 March 2009|accessdate=26 October 2011}}</ref>
 
==Non-destructive detector==
 
Examples of non-destructive detectors include:
* Ultraviolet detector: This detector works on either a fixed or variable wavelength. The UV absorption of the effluent is continuously measured at single or multiple wavelengths. A diode array detector (DAD or PDA) is an example of an ultraviolet detector. Ultraviolet detectors are typically the most popular detectors for liquid chromatography.<ref>{{cite web_short|url=http://www.reachdevices.com/Commercial_UV_detectors.html |title=Comparative table of commercial UV detectors |publisher=REACH Devices |date=09 October 2011|accessdate=26 October 2011}}</ref>
* Thermal conductivity detector: This detector measures the thermal conductivity of the effluent and is only used in gas chromatography.
* Fluorescence detector: Using the principle of [[fluorescence spectroscopy]], this detector irradiates effluent with a light of set wavelength and measures the fluorescence of the effluent at a single or multiple wavelength. It's only used in liquid chromatography.
* Electron capture detector: This is the most sensitive detector known. Allows for the detection of organic molecules containing halogen, nitro groups, etc.
* Conductivity monitor: This detector continuously measures the conductivity of the effluent. Used only in liquid chromatography when conductive eluates (water or alcohols) are used.<ref>{{cite web_short|url=http://www.chromatography-online.org/HPLC/Electrical-Conductivity/rs29.html |title=Liquid Chromatography: Electrical Conductivity |publisher=Chromatography-Online.org |accessdate=26 October 2011}}</ref>
* Refractive index detector: This detector continuously measures the refractive index of the effluent, and it's used only in liquid chromatography. The lowest sensitivity of all detectors. Useful when nothing else works and at high analyte concentrations.
* Radio flow detector: This detector measures radioactivity of the effluent. This detector can be destructive if a [[Liquid scintillation counting|scintillation cocktail]] is continuously added to the effluent.
* Chiral detector: This detector continuously measures the [[Optical activity|optical angle of rotation]] of the eluent. Used only in liquid chromatography when chiral compounds are being analyzed.
 
==Further reading==
 
* [http://www.chromatography-online.org/2/contents.html Chromatography-Online.org: Gas Chromatography Detectors]
* [http://www.chromatography-online.org/5/contents.html Chromatography-Online.org: Liquid Chromatography Detectors]
 
==References==
{{Reflist}}
 
[[Category:Chromatography]]

Revision as of 20:02, 26 October 2011

A chromatography detector is a device used in gas chromatography (GC) or liquid chromatography (LC) to visualize components of the mixture being eluted off the chromatography column.

There are two general types of detectors: destructive and non-destructive. A destructive detector performs continuous transformation of the column effluent (by burning, evaporating, or mixing with reagents), with a subsequent measurement of some physical property of the resulting material (plasma, aerosol, or reaction mixture). A non-destructive detector directly measures some property of the column effluent (UV absorption, for example) and thus affords for further analyte recovery.

Destructive detector

Examples of destructive detectors include:

  • Flame ionization detector: The column effluent is injected into hydrogen flame and the flame conductivity is measured. This detector is only used in gas chromatography.
  • Flame photometric detector: Column eluate is burned in a hydrogen flame. The light of the flame is filtered through an optical filter, allowing the detection of sulfur and phosphorus.
  • Atomic-emission detector: The column effluent is injected into plasma and the plasma spectrum is recorded. This detector allows for immediate determination of the elements present in the analyte.[1]
  • Mass spectrometry detector: The column effluent is continuously injected into a mass spectrometer. This detector allows for immediate determination of the molecular weight of analyte and/or the fragmentation pattern, thus providing a significant amount of information about analyte.
  • Nitrogen phosphorus detector: This detector is only used only in gas chromatography.
  • Evaporative light scattering detector: The column effluent is continuously evaporated and the light scattering of the resulting aerosol is measured. This detector is only used in liquid chromatography.[2]

Non-destructive detector

Examples of non-destructive detectors include:

  • Ultraviolet detector: This detector works on either a fixed or variable wavelength. The UV absorption of the effluent is continuously measured at single or multiple wavelengths. A diode array detector (DAD or PDA) is an example of an ultraviolet detector. Ultraviolet detectors are typically the most popular detectors for liquid chromatography.[3]
  • Thermal conductivity detector: This detector measures the thermal conductivity of the effluent and is only used in gas chromatography.
  • Fluorescence detector: Using the principle of fluorescence spectroscopy, this detector irradiates effluent with a light of set wavelength and measures the fluorescence of the effluent at a single or multiple wavelength. It's only used in liquid chromatography.
  • Electron capture detector: This is the most sensitive detector known. Allows for the detection of organic molecules containing halogen, nitro groups, etc.
  • Conductivity monitor: This detector continuously measures the conductivity of the effluent. Used only in liquid chromatography when conductive eluates (water or alcohols) are used.[4]
  • Refractive index detector: This detector continuously measures the refractive index of the effluent, and it's used only in liquid chromatography. The lowest sensitivity of all detectors. Useful when nothing else works and at high analyte concentrations.
  • Radio flow detector: This detector measures radioactivity of the effluent. This detector can be destructive if a scintillation cocktail is continuously added to the effluent.
  • Chiral detector: This detector continuously measures the optical angle of rotation of the eluent. Used only in liquid chromatography when chiral compounds are being analyzed.

Further reading

References

  1. Vozhdaeva, M. Y., L. G. Tsypysheva, L. I. Kantor, and E. A. Kantor (2007). "Using gas chromatography with atomic emission detection for determining organic pollutants in water". Journal of Analytical Chemistry: 1069–1074. http://www.springerlink.com/content/dwt287h196g4v622/.