초록 ▼

A system for interfacing a sampling device and a chromatograph and for pre-concentrating analytes in a sample prior to introducing the sample into the chromatographic column is generally disclosed comprising an interface housing with a first channel and an adsorbent housing with a second channel, wh

A system for interfacing a sampling device and a chromatograph and for pre-concentrating analytes in a sample prior to introducing the sample into the chromatographic column is generally disclosed comprising an interface housing with a first channel and an adsorbent housing with a second channel, which contains at least one adsorbent. Valveless conduits permit fluid to be communicated between the sampling device and the first channel, between the first channel and the second channel, and the first channel and the column. In some embodiments, fluid flows in one direction when the analytes are adsorbed and in the opposite direction when analytes are desorbed. In certain embodiments, two different adsorbents are disposed in the second channel to adsorb different types of analytes.

대표청구항 ▼

1. An interface assembly for pre-concentrating analytes in chromatography, comprising: a headspace sampler having at least one sample vessel and a sample chamber that receives a sample extracted from the vessel;an interface housing having a first end and a second end, wherein the first end is adapte

1. An interface assembly for pre-concentrating analytes in chromatography, comprising: a headspace sampler having at least one sample vessel and a sample chamber that receives a sample extracted from the vessel;an interface housing having a first end and a second end, wherein the first end is adapted to be coupled to said headspace sampler and the second end is adapted to be coupled to a chromatograph, and wherein said interface housing has a first flow channel;an adsorbent housing connected to said interface housing, said adsorbent housing having a second flow channel, an inlet in fluid communication with the second flow channel, and an outlet in fluid communication with the second flow channel;a first valveless conduit through which fluid is communicated between the sample chamber and the first flow channel;a second valveless conduit through which fluid is communicated between the first flow channel and the second flow channel;a third valveless conduit through which fluid is communicated from said first flow channel to the chromatograph; andat least one adsorbent disposed in said second flow channel such that said adsorbent adsorbs analytes when fluid carrying the analytes flows through the second valveless conduit, through the second flow channel, and through the outlet, and said adsorbent desorbs the analytes when fluid flows through the inlet, through the second flow channel, and through the second valveless conduit. 2. An interface assembly for pre-concentrating analytes as claimed in claim 1, further comprising a chromatographic column having an end disposed in the first flow channel, wherein said third valveless conduit comprises the end of the chromatographic column. 3. An interface assembly for pre-concentrating analytes as claimed in claim 1, wherein said interface housing includes first and second inlets in fluid communication with the first flow channel. 4. An interface assembly for pre-concentrating analytes as claimed in claim 3, wherein: said interface housing comprises a first portion and a second portion;said first portion includes the first inlet; andsaid second portion includes the second inlet. 5. An interface assembly for pre-concentrating analytes as claimed in claim 3, wherein said headspace sampler further includes a sampling needle with a vessel port in fluid communication with the vessel and a chamber port in fluid communication with the sample chamber, further comprising: a chromatographic column coupled to the second end of the interface housing; anda plurality of valves for opening and closing the first and second inlets of said interface housing, the inlet of the adsorbent housing, and the outlet of the adsorbent housing;wherein:when the vessel port of the sampling needle is positioned in the vessel, the outlet of the adsorbent housing is closed, and the first and second inlets of the interface housing and the inlet of the adsorbent housing are open, fluid flows into the vessel and pressurizes the vessel;when the vessel port of the sampling needle is positioned in the vessel, the first inlet of the interface housing and the inlet of the adsorbent housing are closed, and the second inlet of the interface housing and the outlet of the adsorbent housing are open, fluid flows from the sampling device, into the first flow channel, into the second flow channel, where the adsorbent adsorbs the analytes in the fluid, and out through the outlet;when the vessel port of the sampling needle is positioned within the sample chamber, the inlet of the adsorbent housing is closed, and the first and second inlets of the interface housing and the outlet of the adsorbent housing are open, carrier gas flows into the first flow channel, into the second flow channel, where moisture is carried away by the carrier gas, and out through the outlet; andwhen the vessel port of the sampling needle is positioned within the sample chamber, the first and second inlets of the interface housing and the outlet of the adsorbent housing is closed, and the inlet of the adsorbent housing is open, fluid flows into the second flow channel, where the analytes are desorbed, into the first flow channel, and into the chromatographic column. 6. An interface assembly for pre-concentrating analytes as claimed in claim 1, further comprising: a passage through which fluid is communicated from the second flow channel to the outlet of the adsorbent housing, and through which fluid is communicated from the inlet of the adsorbent housing to the second flow channel; anda valve located in said passage for switching between the inlet and outlet of the adsorbent housing. 7. An interface assembly for pre-concentrating analytes as claimed in claim 1, wherein said interface housing and said adsorbent housing have corresponding threaded portions for connecting said adsorbent housing to said interface housing. 8. An interface assembly for pre-concentrating analytes as claimed in claim 1, wherein said adsorbent housing is integrally formed with said interface housing. 9. An interface assembly for pre-concentrating analytes as claimed in claim 1, wherein said adsorbent housing is temperature-controllable. 10. An interface assembly for pre-concentrating analytes as claimed in claim 1, wherein said at least one adsorbent is hydrophobic. 11. An interface assembly for pre-concentrating analytes as claimed in claim 10, wherein said at least one adsorbent comprises carbon black. 12. An interface assembly for pre-concentrating analytes as claimed in claim 10, wherein said at least one adsorbent comprises a polymeric adsorbent. 13. An interface assembly for pre-concentrating analytes as claimed in claim 10, wherein said at least one adsorbent comprises a carbon molecular sieve. 14. An interface assembly for pre-concentrating analytes as claimed in claim 1, wherein: said at least one adsorbent comprises first and second adsorbents;said second adsorbent is stronger than said first adsorbent; andsaid first adsorbent is disposed between said second valveless conduit and said second adsorbent. 15. An interface assembly for pre-concentrating analytes as claimed in claim 1, wherein the first flow channel has a diameter between 0.1 and 1.0 mm. 16. An interface assembly for pre-concentrating analytes as claimed in claim 13, wherein the first flow channel has a diameter of about 0.5 mm.