Apparatus and method for generating chemical signatures using differential desorption

US 9,337,007 B2
Filed: 06/14/2015
Issued: 05/10/2016
Est. Priority Date: 06/15/2014
Status: Active Grant

First Claim

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1. A method of analyzing a sample on a sorbent coated fiber comprising the steps of:

receiving a sorbent coated fiber of a length and a diameter to permit multiple exposure of the sorbent coated fiber;

contacting the sorbent coated fiber with the sample;

directing a carrier gas with a first temperature from a desorption ionization source at a target area on the sorbent coated fiber to generate a plurality of first sample ions; and

directing a carrier gas with a second temperature at a second target area on the sorbent coated fiber to generate a plurality of second sample ions;

directing one or both the plurality of first sample ions and the plurality of second sample ions into an analysis instrument; and

analyzing one or both the plurality of first sample ions and the plurality of second sample ions.

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Abstract

The present invention is directed to a method and device to generate a chemical signature for a mixture of analytes. The present invention involves using a SPME surface to one or both absorb and adsorb the mixture of analytes. In an embodiment of the invention, the surface is then exposed to different temperature ionizing species chosen with appropriate spatial resolution to desorb a chemical signature for the mixture of analytes.

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20 Claims

1. A method of analyzing a sample on a sorbent coated fiber comprising the steps of:
- receiving a sorbent coated fiber of a length and a diameter to permit multiple exposure of the sorbent coated fiber;
  
  contacting the sorbent coated fiber with the sample;
  
  directing a carrier gas with a first temperature from a desorption ionization source at a target area on the sorbent coated fiber to generate a plurality of first sample ions; and
  
  directing a carrier gas with a second temperature at a second target area on the sorbent coated fiber to generate a plurality of second sample ions;
  
  directing one or both the plurality of first sample ions and the plurality of second sample ions into an analysis instrument; and
  
  analyzing one or both the plurality of first sample ions and the plurality of second sample ions.
- View Dependent Claims (2, 3)
- - 2. The method of claim 1, where the length of the sorbent coated fiber is between:
    - a lower limit of approximately 4 mm; and
      
      an upper limit of approximately 150 mm.
  - 3. The method of claim 1, where the diameter of the sorbent coated fiber is between:
    - a lower limit of approximately 0.05 mm; and
      
      an upper limit of approximately 2 mm.

4. A method of ionizing one or more samples comprising the steps of:
- receiving a plurality of sorbent coated fibers of a length and a diameter to permit multiple exposure of the plurality of sorbent coated fibers;
  
  contacting one or more of the plurality of sorbent coated fibers with the one or more samples;
  
  separating the plurality of sorbent coated fibers by a distance; and
  
  directing a plurality of streams of different temperature carrier gasses from one or more desorption ionization sources at one or more target areas on the plurality of sorbent coated fibers to ionize molecules present on the one or more target areas.
- View Dependent Claims (5, 6, 7, 8, 9, 10)
- - 5. The method of claim 4, where the distance is between:
    - a lower limit of approximately 1 mm; and
      
      an upper limit of approximately 10 mm.
  - 6. The method of claim 4, where the length is between:
    - a lower limit of approximately 4 mm; and
      
      an upper limit of approximately 150 mm.
  - 7. The method of claim 4, where the diameter is between:
    - a lower limit of approximately 0.05 mm; and
      
      an upper limit of approximately 2 mm.
  - 8. The method of claim 4, where the plurality of streams of different temperature carrier gasses are selected from the group consisting of helium, nitrogen, oxygen, neon, argon, krypton, and xenon carrier gasses.
  - 9. The method of claim 4, where the temperature of the plurality of streams of different temperature carrier gasses is between:
    - a lower limit of approximately 270°
      
      K; and
      
      an upper limit of approximately 600°
      
      K.
  - 10. The method of claim 4, further comprising the steps of analyzing molecule ions with a mass spectrometer in one or both positive and negative ionization modes.

11. A method of ionizing a sample comprising the steps of:
- receiving a sorbent coated fiber with a proximal end and a distal end with a length and a diameter;
  
  depositing the sample on the sorbent coated fiber at a first distance from the proximal end;
  
  inserting the proximal end of the sorbent coated fiber into a container with a liquid, where the liquid is made up of one or more solvents, where the proximal end of the sorbent coated fiber is immersed in the liquid up to a second distance from the proximal end, where the first distance is greater than the second distance;
  
  waiting for the liquid front to move from the second distance to a third distance from the proximal end, where the third distance is greater than the first distance and less than the length;
  
  removing the sorbent coated fiber from the container; and
  
  directing a plurality of different temperatures of a carrier gas from a desorption ionization source at a plurality of different target areas along the length of the sorbent coated fiber to ionize the sample.
- View Dependent Claims (12, 13, 14)
- - 12. The method of claim 11, where the plurality of different target areas includes a first target area separated from a second target area by a distance between:
    - a lower limit of approximately 1 mm; and
      
      an upper limit of approximately 10 mm.
  - 13. The method of claim 11, where the length of the sorbent coated fiber is between:
    - a lower limit of approximately 4 mm; and
      
      an upper limit of approximately 150 mm.
  - 14. The method of claim 11, where the diameter of the sorbent coated fiber is between:
    - a lower limit of approximately 0.05 mm; and
      
      an upper limit of approximately 2 mm.

15. A method of measuring a droplet solvent gradient profile of a sample comprising the steps of:
- receiving a sorbent coated fiber of a length and a diameter;
  
  contacting the sorbent coated fiber with a sample;
  
  directing a stream of electrostatically charged solvent droplets with a first chemical composition generated by a first desorption ionization source at a target area on the sorbent coated fiber to generate a plurality of first sample ions;
  
  directing one or more of the plurality of first sample ions into an analyzer;
  
  analyzing one or more of the plurality of first sample ions;
  
  directing a stream of electrostatically charged solvent droplets with a second chemical composition generated by a second desorption ionization source at the target area to generate a plurality of second sample ions;
  
  directing one or more of the plurality of second sample ions into the analyzer;
  
  analyzing one or more of the plurality of second sample ions; and
  
  measuring a droplet solvent gradient profile of the sample.
- View Dependent Claims (16, 17, 18, 19, 20)
- - 16. The method of claim 15, where the length of the sorbent coated fiber is between:
    - a lower limit of approximately 4 mm; and
      
      an upper limit of approximately 150 mm.
  - 17. The method of claim 15, where the diameter of the sorbent coated fiber is between:
    - a lower limit of approximately 0.05 mm; and
      
      an upper limit of approximately 2 mm.
  - 18. The method of claim 15, where the first desorption ionization source is the same as the second desorption ionization source.
  - 19. The method of claim 15, where one or both the first and the second desorption ionization source is an electrospray ionization source.
  - 20. The method of claim 15, where the sorbent coated fiber is made up of one or more materials selected from the group consisting of C-18, PDMS/divinyl-benzene, PDMS, C-8 and C-4.

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Current Assignee
Bruker Scientific LLC (Bruker Corporation)
Original Assignee
IonSense, Inc. (Bruker Corporation)
Inventors
Musselman, Brian D
Primary Examiner(s)
MASKELL, MICHAEL P

Application Number

US14/738,899
Publication Number

US 20150364310A1
Time in Patent Office

331 Days
Field of Search

250/281, 250/282, 250/288
US Class Current

1/1
CPC Class Codes

G01N 1/4022   by thermal techniques; Phas...

G01N 2001/028   Sampling from a surface, sw...

G01N 2030/009   Extraction

G01N 2030/062   extracting sample from raw ...

H01J 49/0031   Step by step routines descr...

H01J 49/045   with means for using a nebu...

H01J 49/16   using surface ionisation, e...

H01J 49/165   Electrospray ionisation

Apparatus and method for generating chemical signatures using differential desorption

First Claim

2 Assignments

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Abstract

Citations

20 Claims

Specification

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Apparatus and method for generating chemical signatures using differential desorption

First Claim

2 Assignments

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0 Petitions

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Accused Products

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Abstract

Citations

20 Claims

Specification

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Solutions

Use Cases

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