Nitrogen–phosphorus detector explained

The nitrogen–phosphorus detector (NPD) is also known as thermionic specific detector (TSD) is a detector commonly used with gas chromatography, in which thermal energy is used to ionize an analyte.[1] [2] It is a type of flame thermionic detector (FTD), the other being the alkali flame-ionization detector (AFID also known as AFD).

With this method, nitrogen and phosphorus can be selectively detected with a sensitivity that is 104 times greater than that for carbon.

NP-Mode

A concentration of hydrogen gas is used such that it is just below the minimum required for ignition. A rubidium or cesium bead, which is mounted over the nozzle, ignites the hydrogen (by acting catalytically), and forms a cold plasma. Excitation of the alkali metal results in ejection of electrons, which in turn are detected as a current flow between an anode and cathode in the chamber. As nitrogen or phosphorus analytes exit the column, they cause a reduction in the work function of the metal bead, resulting in an increase in current. Since the alkali metal bead is consumed over time, it must be replaced regularly .

See also

Notes and References

  1. Book: Wolfgang Kleiböhmer. Environmental Analysis. 2001. Elsevier. 978-0-444-50021-2. 8–.
  2. Burgett. Charles A.. Smith. Douglas H.. Bente. H.Bryan. The nitrogen-phosphorus detector and its applications in gas chromatography. Journal of Chromatography A. 134. 1. 1977. 57–64. 0021-9673. 10.1016/S0021-9673(00)82569-8.