JP2005221506A5

JP2005221506A5 -

Info

Publication number: JP2005221506A5
Application number: JP2005029478A
Authority: JP
Filing date: 2005-02-04
Publication date: 2008-03-06

Claims

A probe comprising a first flow device and a second flow device;
An ion source including a combustion source disposed downstream of the probe.

2. The ion source of claim 1, wherein at least some or substantially all of the second flow device surrounds at least some or substantially all of the first flow device. An ion source that wraps or surrounds.

The ion source according to claim 1 or 2, wherein the first flow device and the second flow device are coaxial or substantially coaxial.

4. The ion source according to claim 1, 2 or 3, wherein the first flow device and / or the second flow device comprises one or more capillaries or tubes.

Ion source according to any of the preceding claims, wherein an analyte solution or liquid or stream is supplied to the first flow device and / or the second flow device in use.

6. The ion source according to claim 5 , wherein the analyte solution or liquid or stream is (i) <1 μl / min; (ii) 1-10 μl / min; (iii) 10-50 μl / min; (Iv) 50-100 μl / min; (v) 100-200 μl / min; (vi) 200-300 μl / min; (vii) 300-400 μl / min; (viii) 400-500 μl / min; (ix) 500- (X) 600-700 μl / min; (xi) 700-800 μl / min; (xii) 800-900 μl / min; (xiii) 900-1000 μl / min; and (xiv)> 1000 μl / min An ion source supplied to the first flow device and / or the second flow device in use at a flow rate selected from:

Ion source according to any of the preceding claims, wherein a first gas or vapor is supplied to the first flow device and / or the second flow device in use.

8. Ion source according to claim 7 , wherein the first gas or vapor is flammable and / or assists in the spraying of an analyte solution or liquid or stream.

9. The ion source according to claim 7 or 8 , wherein the first gas or vapor is (i) acetone; (ii) acetylene; (iii) benzene; (iv) butane; (v) butyl alcohol (butanol). (Vi) diethyl ether; (vii) ethane; (viii) ethyl alcohol (ethanol); (ix) ethylene; (x) ethylene oxide; (xi) hexane; (xii) hydrogen; (xiii) isopropyl alcohol (isopropanol) (Xiv) methane; (xv) methyl alcohol (methanol); (xvi) methyl ethyl ketone; (xvii) n-pentane; (xviii) propane; (xix) propylene; (xx) styrene; (xxi) toluene; (xxii) Xylene; (xxiii) carbon monoxide; (xxiv) saturated carbonization (Xxv) unsaturated hydrocarbon; (xxvi) alcohol; (xxvii) ester; (xxxviii) ether; (xxix) hydrocarbon; (xxx) gasoline; (xxxi) jet fuel; (xxxii) naphtha; (xxxiii) Turpentine oil; (xxxiv) cyclic compound; (xxxv) ketone; (xxxvi) inorganic gas; (xxxvii) organic gas; (xxxviii) hydrogen sulfide; (xxxix) ammonia; (xxx) propanol; (xxxxi) ethyl acetate; An ion source comprising one or more gases or vapors selected from the group consisting of :) heptane; and (xxxiii) exylene.

The ion source according to claim 7 or 8 , wherein the first gas sustains combustion.

11. The ion source according to any one of claims 7 to 10 , wherein the first gas or vapor is (i) <1 bar; (ii) 1-2 bar; (iii) 2-3 bar; (iv) 3 (V) 4-5 bar; (vi) 5-6 bar; (vii) 6-7 bar; (viii) 7-8 bar; (ix) 8-9 bar; (x) 9-10 bar; and (xi)> An ion source supplied to the first flow device and / or the second flow device in use at a pressure selected from the group consisting of 10 bar.

12. Ion source according to any of claims 7-11 , wherein the first gas or vapor enhances combustion of the second gas or vapor by the combustion source or is burned to produce droplets. An ion source that provides heat when assisting in desolvation.

Ion source according to any preceding claim, wherein the combustion source is selected from the group consisting of (i) a blue flame torch; (ii) a gas torch; and (iii) a blow torch. source.

Ion source according to any of the preceding claims, wherein the combustion source is arranged to burn a second gas or steam.

The ion source according to claim 14 , wherein the combustion source is directly supplied with the second gas or vapor.

16. The ion source according to claim 14 or 15 , wherein the second gas or vapor is (i) acetone; (ii) acetylene; (iii) benzene; (iv) butane; (v) butyl alcohol (butanol). (Vi) diethyl ether; (vii) ethane; (viii) ethyl alcohol (ethanol); (ix) ethylene; (x) ethylene oxide; (xi) hexane; (xii) hydrogen; (xiii) isopropyl alcohol (isopropanol) (Xiv) methane; (xv) methyl alcohol (methanol); (xvi) methyl ethyl ketone; (xvii) n-pentane; (xviii) propane; (xix) propylene; (xx) styrene; (xxi) toluene; (xxii) Xylene; (xxiii) carbon monoxide; (xxiv) saturation (Xxv) unsaturated hydrocarbon; (xxvi) alcohol; (xxvii) ester; (xxxviii) ether; (xxx) hydrocarbon; (xxx) gasoline; (xxxi) jet fuel; (xxxiii) naphtha; (xxxiii) (Xxxiv) cyclic compound; (xxxv) ketone; (xxxvi) inorganic gas; (xxxvii) organic gas; (xxxviii) hydrogen sulfide; (xxxix) ammonia; (xxx) propanol; (xxxi) ethyl acetate; an ion source comprising one or more gases or vapors selected from the group consisting of: xxxiii) heptane; and (xxxiii) exylene.

An ion source according to any of the preceding claims, wherein the probe has a first longitudinal axis, the combustion source has a second longitudinal axis, and the first longitudinal axis. The angle between the second longitudinal axis is (i) 0-10 °; (ii) 10-20 °; (iii) 20-30 °; (iv) 30-40 °; (v) 40- (Vi) 50-60 °; (vii) 60-70 °; (viii) 70-80 °; (ix) 80-90 °; (x) 85-95 °; (xi) 90-100 ° (Xiii) 100-110 °; (xiii) 110-120 °; (xiv) 120-130 °; (xv) 130-140 °; (xvi) 140-150 °; (xvii) 150-160 °; (Xviii) 160-170 °; and (xix) 170-180 ° Ion source.

The ion source according to any of the preceding claims, further comprising an enclosure for surrounding the probe and the combustion source, the enclosure comprising a gas intake port and a gas exhaust port.

The ion source according to claim 18 , wherein a background gas is introduced into the enclosure through the gas intake port when in use.

20. Ion source according to claim 18 or 19 , wherein the enclosure is (i) <100 mbar; (ii) 100-500 mbar; (iii) 500-600 mbar; (iv) 600-700 mbar; (v) 700- (Vi) 800-900 mbar; (vii) 1000-1100 mbar; (ix) 1100-1200 mbar; (x) 1200-1300 mbar; (xi) 1300-1400 mbar; (xii) 1400-1500 mbar An ion source maintained in use at a pressure selected from the group consisting of: (xiii) 1500-2000 mbar; and (xiv)> 2000 mbar.

An ion source according to any preceding claim, wherein the ion source comprises an electrospray ion source.

Ion source according to any of the preceding claims, wherein the first flow device and / or the second flow device are: (i) <± 1 kV; (ii) ± 1-2 kV; (iii) ± (Iv) ± 3-4 kV; (v) ± 4-5 kV; (vi) ± 5-6 kV; (vii) ± 6-7 kV; (viii) ± 7-8 kV; (ix) ± 8− 9 kV; (x) ± 9-10 kV; and (xi)> ± 10 kV voltage or relative potential, maintained ion source in use.

21. The ion source according to any one of claims 1 to 20 , wherein the ion source includes an atmospheric pressure chemical ionization ion source.

24. The ion source according to claim 23 , wherein the ion source includes a corona discharge device disposed downstream of the combustion source.

25. The ion source according to claim 24 , wherein in the mode of operation: (i) <0.1 [mu] A; (ii) 0.1-0.2 [mu] A; (iii) 0.2-0.3 [mu] A; (iv) (V) 0.4-0.5 μA; (vi) 0.5-0.6 μA; (vii) 0.6-0.7 μA; (viii) 0.7-0. An ion source in which a current selected from the group consisting of 8 μA; (ix) 0.8-0.9 μA; (x) 0.9-1.0 μA; and (xi)> 1 μA is applied to the corona discharge device .

26. The ion source according to claim 24 or 25 , wherein in the mode of operation: (i) <± 1 kV; (ii) ± 1-2 kV; (iii) ± 2-3 kV; (iv) ± 3-4 kV; (Vi) ± 5-6 kV; (vii) ± 6-7 kV; (viii) ± 7-8 kV; (ix) ± 8-9 kV; (x) ± 9-10 kV; xi) a voltage selected from the group consisting of> ± 10 kV is applied to the corona discharge device, or (i) <± 1 kV; (ii) ± 1-2 kV; (iii) ± 2-3 kV; (Iv) ± 3-4 kV; (v) ± 4-5 kV; (vi) ± 5-6 kV; (vii) ± 6-7 kV; (viii) ± 7-8 kV; (ix) ± 8-9 kV; ) ± 9-10 kV; and (xi)> ± 10 kV. Ion source na discharge apparatus is maintained.

The ion source according to any of the preceding claims, wherein the first flow device and / or the second flow device are in use: (i) ± 0-100V; (ii) ± 100-200V; (Iii) ± 200-300V; (iv) ± 300-400V; (v) ± 400-500V; (vi) ± 500-600V; (vii) ± 600-700V; (viii) ± 700-800V; An ion source maintained at a voltage or relative potential selected from the group consisting of:) ± 800-900 V; (x) ± 900-1000 V; and (xi)> ± 1000 V.

A mass spectrometer comprising an ion source according to any of the preceding claims ,
The mass spectrometer is
(Ii) orthogonal acceleration time of flight mass analyzer; (ii) axial acceleration time of flight mass analyzer; (iii) quadrupole mass analyzer; (iv) Penning mass analyzer; (v) Fourier transform ion cyclotron resonance ("" A mass selected from the group consisting of: (vi) a 2D or linear quadrupole ion trap; (vii) a pole or 3D quadrupole ion trap; and (viii) a magnetic mass spectrometer. A mass spectrometer further comprising an analyzer.

29. A mass spectrometer as recited in claim 28 , further comprising an ion sampling cone or ion sampling orifice disposed downstream of the combustion source.

30. A mass spectrometer as recited in claim 29 , wherein the ion sampling cone is adapted to deflect, attract, direct, or bounce at least some ions toward the ion sampling cone or the ion sampling orifice. Or a mass spectrometer further comprising one or more electrodes disposed opposite or adjacent to the ion sampling orifice.

31. The mass spectrometer according to claim 28 , wherein the ion source is connected to a liquid chromatograph or a gas chromatograph at the time of use.

A probe comprising a first flow device and a second flow device;
An electrospray ionization ion source comprising a combustion source disposed downstream of the probe.

A probe comprising a first flow device and a second flow device;
An atmospheric pressure chemical ionization ion source including a combustion source disposed downstream of the probe.

A method for ionizing a sample comprising:
The method comprises
Providing a probe comprising a first flow device and a second flow device;
Supplying a sample to one of the flow devices;
Supplying a first gas or vapor to another said flow device;
Combusting the first gas or steam with the combustion source disposed downstream of the probe.

35. A method of mass spectrometry comprising a method of ionizing a sample according to claim 34 .