Claims
- 1. An apparatus for producing ions from chemical species comprising:
a. an ion source operated substantially at atmospheric pressure which produces ions from sample bearing solutions; b. at least two probes from which at least two solutions are introduced into said ion source; c. at least one means for producing ions from at least two solutions introduced into said ion source; d. means for mixing said ions produced; and e. a means for delivering ions into a vacuum region.
- 2. An apparatus according to claim 1, wherein said means for producing ions comprises an Electrospray means.
- 3. An apparatus according to claim 1, wherein said means for producing ions comprises an Electrospray with nebulization assist means.
- 4. An apparatus according to claim 1, wherein said means for producing ions comprises an Atmospheric Pressure Chemical Ionization means.
- 5. An apparatus according to claim 1, wherein said means for producing ions comprises both an Electrospray and an Atmospheric Pressure Chemical Ionization means.
- 6. An apparatus according to claim 1, wherein said means for producing ions comprises an Inductively Coupled Plasma means.
- 7. An apparatus according to claim 1, wherein said means for mixing said ions produced, mixes said ions substantially at atmospheric pressure.
- 8. An apparatus for analyzing chemical species comprising:
a. an ion source operated substantially at atmospheric pressure which produces ions from sample bearing solutions; b. at least two probes from which at least two solutions are introduced into said ion source; c. at least one means for producing ions from at least two solutions introduced into said ion source; d. means for mixing said ions produced; and e. a means for mass analyzing said ions produced.
- 9. An apparatus according to claim 8, wherein said means for producing ions comprises an Electrospray means.
- 10. An apparatus according to claim 8, wherein said means for producing ions comprises an Electrospray with nebulization assist means.
- 11. An apparatus according to claim 8, wherein said means for producing ions comprises an Atmospheric Pressure Chemical Ionization means.
- 12. An apparatus according to claim 8, wherein said means for producing ions comprises both an Electrospray and an Atmospheric Pressure Chemical Ionization means.
- 13. An apparatus according to claim 8, wherein said means for producing ions comprises an Inductively Coupled Plasma means.
- 14. An apparatus according to claim 1, wherein said means for mixing said ions produced, mixes said ions substantially at atmospheric pressure.
- 15. An apparatus according to claim 8, wherein said means for mass analyzing said ions produced comprises a Time-Of-Flight mass spectrometer.
- 16. An apparatus according to claim 8, wherein said means for mass analyzing said ions produced comprises a Quadrupole mass spectrometer.
- 17. An apparatus according to claim 8, wherein said means for mass analyzing said ions produced comprises an Ion Trap mass spectrometer.
- 18. An apparatus according to claim 8, wherein said means for mass analyzing said ions produced comprises a Fourier Transform mass spectrometer.
- 19. An apparatus according to claim 8, wherein said means for mass analyzing said ions produced comprises a magnetic sector mass spectrometer.
- 20. An apparatus according to claim 8, wherein said means for mass analyzing said ions produced comprises a hybrid mass spectrometer.
- 21. An apparatus according to claim 8, wherein at least one of said at least two probes comprises a microtip.
- 22. An apparatus for producing ions from chemical species comprising;
a. an ion source operated substantially at atmospheric pressure which produces ions from solutions; b. at least two probes from which at least two solutions are introduced into said ion source; c. the position of said at least two probes is fixed when at least two solutions are introduced into said ion source; d. at least one means for producing ions from at least two solutions introduced into said ion source; and e. a means for delivering ions into said vacuum region.
- 23. An apparatus according to claim 22, wherein said means for producing ions comprises an Electrospray means.
- 24. An apparatus according to claim 22, wherein said means for producing ions comprises an Electrospray with nebulization assist means.
- 25. An apparatus according to claim 22, wherein said means for producing ions comprises an Atmospheric Pressure Chemical Ionization means.
- 26. An apparatus according to claim 22, wherein said means for producing ions comprises both an Electrospray and an Atmospheric Pressure Chemical Ionization means.
- 27. An apparatus according to claim 22, wherein said means for producing ions comprises an Inductively Coupled Plasma means.
- 28. An apparatus according to claim 22, wherein said ions are produced from at least two solutions are mixed prior to entering said vacuum region.
- 29. An apparatus according to claim 22, wherein at least one of said at least two probes comprises a microtip.
- 30. An apparatus for analyzing chemical species comprising:
a. an ion source which produces ions from sample bearing solutions; b. at least two probes from which at least two solutions are introduced into said ion source; c. an Electrospray ionization means for producing ions from at least two of said solutions simultaneously; and d. a means for mass analyzing said ions produced.
- 31. An apparatus according to claim 30, wherein said Electrospray ionization means comprises nebulization assist.
- 32. An apparatus according to claim 30, wherein said ion source comprises bath gas flow to aid in drying Electrosprayed charged droplets.
- 33. An apparatus according to claim 30, wherein said means for mass analyzing said ions produced comprises a Time-Of-Flight mass spectrometer.
- 34. An apparatus according to claim 30, wherein said means for mass analyzing said ions produced comprises a Quadrupole mass spectrometer.
- 35. An apparatus according to claim 30, wherein said means for mass analyzing said ions produced comprises an Ion Trap mass spectrometer.
- 36. An apparatus according to claim 30, wherein said means for mass analyzing said ions produced comprises a Fourier Transform mass spectrometer.
- 37. An apparatus according to claim 30, wherein said means for mass analyzing said ions produced comprises a magnetic sector mass spectrometer.
- 38. An apparatus according to claim 30, wherein said means for mass analyzing said ions produced comprises a hybrid mass spectrometer.
- 39. An apparatus according to claim 30, wherein at least one of said at least two probes comprises a microtip.
- 40. An apparatus for analyzing chemical species comprising:
a. an ion source which produces ions from sample bearing solutions; b. at least two probes from which at least two solutions are introduced into said ion source; c. at least one means for producing ions from at least two solutions introduced into said ion source; d. an Atmospheric Pressure Chemical Ionization means as at least one means for producing ions; and e. a means for mass analyzing said ions produced.
- 41. An apparatus according to claim 40, wherein said means for producing ions is by Electrospray ionization.
- 42. An apparatus according to claim 40, wherein said means for producing ions is by Electrospray ionization with nebulization assist.
- 43. An apparatus according to claim 40, wherein said probe is an Electrospray probe which comprises three tube layers at its exit tip.
- 44. An apparatus according to claim 40, wherein said means for mass analyzing said ions produced comprises a Time-Of-Flight mass spectrometer.
- 45. An apparatus according to claim 40, wherein said means for mass analyzing said ions produced comprises a Quadrupole mass spectrometer.
- 46. An apparatus according to claim 40, wherein said means for mass analyzing said ions produced comprises an Ion Trap mass spectrometer.
- 47. An apparatus according to claim 40, wherein said means for mass analyzing said ions produced comprises a Fourier Transform mass spectrometer.
- 48. An apparatus according to claim 40, wherein said means for mass analyzing said ions produced comprises a magnetic sector mass spectrometer.
- 49. An apparatus according to claim 40, wherein said means for mass analyzing said ions produced comprises a hybrid mass spectrometer.
- 50. An apparatus for analyzing chemical species comprising:
a. an ion source which produces ions from sample bearing solutions; b. at least two probes from which at least two solutions are introduced into said ion source; c. an Electrospray ionization means for producing ions from at least one of said solutions introduced into said ion source; d. an Atmospheric Pressure Chemical Ionization means for producing ions from at least one of said solutions introduced into said ion source; and e. a means for mass analyzing said ions produced.
- 51. An apparatus according to claim 50, wherein said Electrospray means comprises nebulization assist.
- 52. An apparatus according to claim 50, wherein said probe is an Electrospray probe which comprises three tube layers at its exit tip.
- 53. An apparatus according to claim 50, wherein said means for mass analyzing said ions produced comprises a Time-Of-Flight mass spectrometer.
- 54. An apparatus according to claim 50, wherein said means for mass analyzing said ions produced comprises a Quadrupole mass spectrometer.
- 55. An apparatus according to claim 50, wherein said means for mass analyzing said ions produced comprises an Ion Trap mass spectrometer.
- 56. An apparatus according to claim 50, wherein said means for mass analyzing said ions produced comprises a Fourier Transform mass spectrometer.
- 57. An apparatus according to claim 50, wherein said means for mass analyzing said ions produced comprises a magnetic sector mass spectrometer.
- 58. An apparatus according to claim 50, wherein said means for mass analyzing said ions produced comprises a hybrid mass spectrometer.
- 59. An apparatus for analyzing chemical species comprising:
a. an ion source operated substantially at atmospheric pressure which produces ions from sample bearing solutions; b. at least two probes from which at least two solutions are introduced into said ion source; c. at least one said solution introduced into said ion source is includes known chemical components; d. at least one means for producing and mixing ions from at least two solutions introduced into said ion source, said mixture containing ions from said known chemical components; and e. a means for mass analyzing said mixture of ions produced.
- 60. An apparatus according to claim 59, wherein said known chemical components are mass scale calibration compounds.
- 61. An apparatus according to claim 60, wherein said mass calibration compounds form ions in said mixture which serve as an internal calibration standard when mass analyzing said mixture.
- 62. An apparatus for analyzing chemical species comprising:
a. an ion source operated substantially at atmospheric pressure which produces ions from sample bearing solutions, b. at least two probes from which at least two solutions are introduced into said ion source; c. at least two means for delivering said solutions to said probes; d. at least one means for producing ions from at least two of said solutions; e. means for mixing said ions produced from least two of said solutions; and f. a means for mass analyzing said ions produced.
- 63. An apparatus according to claim 62, wherein said means for delivering said solution includes a liquid chromatography system.
- 65. An apparatus according to claim 62, wherein said at least two means for delivering said solutions includes at least two liquid chromatography systems.
- 66. An apparatus according to claim 62, wherein said means for delivering said solution includes a capillary electrophoresis system.
- 67. An apparatus according to claim 62, wherein said at least two means for delivering said solutions includes at least two capillary electrophoresis systems.
- 68. An apparatus according to claim 62, wherein said means for delivering said solution includes a liquid pump.
- 69. An apparatus according to claim 62, wherein said means for delivering said solution includes an Electrospray microtip.
- 70. An apparatus according to claim 62, wherein said means for delivering said solution includes a solution reservoir.
- 71. An apparatus according to claim 62, wherein said means for delivering said solution includes a pressurized solvent reservoir.
- 72. An apparatus according to claim 62, wherein said means for delivering said solution includes at least one liquid delivery system with injector valve.
- 73. An apparatus according to claim 62, wherein said at least two means for delivering said solutions includes at least two liquid delivery system each with injector valve.
- 74. An apparatus according to claim 62, wherein said at least two means for delivering said solutions includes at least one liquid delivery system with injector valve and at least one liquid chromatography system.
- 75. An apparatus for analyzing chemical species comprising:
a. an ion source which produces ions from sample bearing solutions; b. at least two probes from which at least two solutions are introduced into said ion source; c. At least two means for delivering at least two of said solutions to said probes; d. At least one said means comprising a chemical separation system for delivering at least one said solution; e. at least one means for producing ions from at least two solutions delivered into said ion source; and f. a means for mass analyzing said ions produced.
- 76. An apparatus according to claim 75, wherein said chemical separation system is a liquid chromatography system.
- 77. An apparatus according to claim 75, wherein said chemical separation system is a capillary electrophoresis system.
- 78. An apparatus according to claim 75, wherein said chemical separation system is a capillary electrophoresis chromatography system.
- 79. An apparatus according to claim 75, wherein said means comprising a chemical separation system comprises a liquid chromatography system and a capillary electrophoresis system.
- 80. An apparatus according to claim 75, wherein said means for producing ions comprises an Electrospray means.
- 81. An apparatus according to claim 75, wherein said means for producing ions comprises an Electrospray with nebulization assist means.
- 82. An apparatus according to claim 75, wherein said means for producing ions comprises an Atmospheric Pressure Chemical Ionization means.
- 83. An apparatus according to claim 75, wherein said means for producing ions comprises both an Electrospray and an Atmospheric Pressure Chemical Ionization means.
- 84. An apparatus according to claim 75, wherein said means for producing ions comprises an Inductively Coupled Plasma means.
- 85. An apparatus according to claim 75, wherein said means for delivering said solution includes at least one liquid delivery system with injector valve.
- 86. An apparatus according to claim 75, wherein said at least two means for delivering said solutions includes at least two liquid delivery system each with injector valve.
- 87. An apparatus according to claim 75, wherein said at least two means for delivering said solutions includes at least one liquid delivery system with injector valve and at least one liquid chromatography system.
- 88. An apparatus for analyzing chemical species comprising:
a. an ion source operated substantially at atmospheric pressure which produces ions from sample bearing solutions; b. at least two probes from which at least two solutions are introduced into said ion source; c. At least two means each comprising a chemical separation system each delivering solution to said probes; d. at least one means for producing ions from at least two solutions delivered into said ion source; and e. a means for mass analyzing said ions produced.
- 89. An apparatus according to claim 88, wherein said chemical separation system is a liquid chromatography system.
- 90. An apparatus according to claim 88, wherein said chemical separation system is a capillary electrophoresis system.
- 91. An apparatus according to claim 88, wherein said chemical separation system is a capillary electrophoresis chromatography system.
- 92. An apparatus according to claim 88, wherein said at least two means for each comprising a chemical separation system comprises a liquid chromatography system and a capillary electrophoresis system.
- 93. An apparatus according to claim 88, wherein said means for producing ions comprises an Electrospray means.
- 94. An apparatus according to claim 88, wherein said means for producing ions comprises an Electrospray with nebulization assist means.
- 95. An apparatus according to claim 88, wherein said means for producing ions comprises an Atmospheric Pressure Chemical Ionization means.
- 96. An apparatus according to claim 88, wherein said means for producing ions comprises both an Electrospray and an Atmospheric Pressure Chemical Ionization means.
- 97. An apparatus according to claim 88, wherein said means for producing ions comprises an Inductively Coupled Plasma means.
- 98. A method for producing ions from solution comprising:
a. utilizing an ion source operating substantially at atmospheric pressure, at least two probes configured in said ion source, and a vacuum system; b. introducing at least two solutions into said ion source through at least two probes; c. producing ions from at least two said solutions introduced through said at least two probes; d. mixing said ions produced; and e. delivering said mixture of ions produced into said vacuum system.
- 99. A method according to claim 98, wherein said ions are produced using Electrospray ionization.
- 100. A method according to claim 98, wherein said ions are produced using Electrospray ionization with nebulization assist.
- 101. A method according to claim 98, wherein said ions are produced using Atmospheric Pressure Chemical Ionization.
- 102. A method according to claim 98, wherein said ions are produced using both Electrospray and Atmospheric Pressure Chemical ionization.
- 103. A method according to claim 98, wherein said ions are produced using Inductively Coupled Plasma ionization.
- 104. A method according to claim 98, wherein said ions are mixed substantially at atmospheric pressure.
- 105. A method for analyzing chemical species comprising:
a. utilizing an ion source operating substantially at atmospheric pressure, at least two probes configured in said ion source, and a mass analyzer; b. introducing at least two solutions into said ion source through at least two probes; c. producing ions from at least two said solutions introduced through said at least two probes; d. mixing said ions produced; and e. mass analyzing said mixture of ions produced with said mass analyzer.
- 106. A method according to claim 105, wherein said ions are produced using Electrospray ionization.
- 107. A method according to claim 105, wherein said ions are produced using Electrospray ionization with nebulization assist.
- 108. A method according to claim 105, wherein said ions are produced using Atmospheric Pressure Chemical Ionization.
- 109. A method according to claim 105, wherein said ions are produced using both Electrospray and Atmospheric Pressure Chemical ionization.
- 110. A method according to claim 105, wherein said ions are produced using Inductively Coupled Plasma ionization.
- 111. A method according to claim 105, wherein said ions are mixed substantially at atmospheric pressure.
- 112. A method according to claim 105, wherein said ions are mass analyzed using, a Time-Of-Flight mass spectrometer.
- 113. A method according to claim 105, wherein said ions are mass analyzed using a Quadrupole mass spectrometer.
- 114. A method according to claim 105, wherein said ions are mass analyzed using an Ion Trap mass spectrometer.
- 115. A method according to claim 105, wherein said ions are mass analyzed using a Fourier Transform mass spectrometer.
- 116. A method according to claim 105, wherein said ions are mass analyzed using a Magnetic Sector mass spectrometer.
- 117. A method according to claim 105, wherein said ions are mass analyzed using a hybrid mass spectrometer.
- 118. An method according to claim 106, wherein said ions are Electrosprayed using a microtip.
- 119. A method for producing ions from solution comprising:
a. utilizing an ion source operating substantially at atmospheric pressure, at least two probes configured in said ion source, and a vacuum system; b. introducing at least two solutions into said ion source through at least two probes; c. producing ions from at least two said solutions introduced into said ion source; d. fixing the position of said at least two probes when said ions are being produced from at least two of said solutions; and e. delivering said mixture of ions produced into said vacuum system.
- 120. A method according to claim 119, wherein said ions are produced using Electrospray ionization.
- 121. A method according to claim 119, wherein said ions are produced using Electrospray ionization with nebulization assist.
- 122. A method according to claim 119, wherein said ions are produced using Atmospheric Pressure Chemical Ionization.
- 123. A method according to claim 119, wherein said ions are produced using both Electrospray and Atmospheric Pressure Chemical ionization.
- 124. A method according to claim 119, wherein said ions are produced using Inductively Coupled Plasma ionization.
- 125. A method according to claim 119, wherein said ions produced from at least two solutions are mixed.
- 126. A method according to claim 119, wherein said ions are Electrosprayed using a microtip.
- 127. A method for analyzing chemical species comprising:
a. utilizing an ion source, at least two probes configured in said ion source, and a mass analyzer; b. operating said ion source at substantially atmospheric pressure; c. introducing at least two solutions into said ion source through at least two probes; d. producing ions from at least two said solutions introduced through said at least two probes; e. producing ions from at least one of said solutions utilizing Electrospray ionization; f. mixing said ions produced; and g. mass analyzing said mixture of ions produced with said mass analyzer.
- 128. A method according to claim 127, wherein said ions are produced using Electrospray ionization with nebulization assist.
- 129. A method according to claim 127, wherein said Electrospray ionization uses bath gas flow to aid in drying Electrosprayed charged droplets.
- 130. A method according to claim 127, wherein at least two of said solutions are introduced into said ion source through at least one of said probes through concentric tubes.
- 131. A method according to claim 127, wherein said ions are mass analyzed using a Time-Of-Flight mass spectrometer.
- 132. A method according to claim 127, wherein said ions are mass analyzed using a Quadrupole mass spectrometer.
- 133. A method according to claim 127, wherein said ions are mass analyzed using an Ion Trap mass spectrometer.
- 134. A method according to claim 127, wherein said ions are mass analyzed using a Fourier Transform mass spectrometer.
- 135. A method according to claim 127, wherein said ions are mass analyzed using a Magnetic Sector mass spectrometer.
- 136. A method according to claim 127, wherein said ions are mass analyzed using a hybrid mass spectrometer.
- 137. An method according to claim 128, wherein said ions are Electrosprayed using a microtip.
- 138. A method for analyzing chemical species comprising:
a. utilizing an ion source, at least two probes configured in said ion source, and a mass analyzer; b. introducing at least two solutions into said ion source through at least two probes; c. producing ions from at least two said solutions introduced through said at least two probes; d. producing ions from at least one of said solutions utilizing Atmospheric Pressure Chemical Ionization; e. mass analyzing said mixture of ions produced with said mass analyzer.
- 139. A method according to claim 138, wherein said ions are produced using Electrospray ionization.
- 140. A method according to claim 138, wherein said ions are produced using Electrospray ionization with nebulization assist.
- 141. A method according to claim 138, wherein said ions are mass analyzed using a Time-Of-Flight mass spectrometer.
- 142. A method according to claim 138, wherein said ions are mass analyzed using a Quadrupole mass spectrometer.
- 143. A method according to claim 138, wherein said ions are mass analyzed using an Ion Trap mass spectrometer.
- 144. A method according to claim 138, wherein said ions are mass analyzed using a Fourier Transform mass spectrometer.
- 145. A method according to claim 138, wherein said ions are mass analyzed using a Magnetic Sector mass spectrometer.
- 146. A method according to claim 138, wherein said ions are mass analyzed using a hybrid mass spectrometer.
- 147. A method for analyzing chemical species comprising:
a. utilizing an ion source, at least two probes configured in said ion source, and a mass analyzer; b. introducing at least two solutions into said ion source through at least two probes; c. producing ions from at least two said solutions introduced through said at least two probes d. producing ions from at least one of said solutions introduced through at least one of said probes utilizing Electrospray ionization; e. producing ions from at least one of said solutions introduced through at least one or said probes utilizing Atmospheric Pressure Chemical Ionization; and e. analyzing said ions produced with said mass analyzer.
- 148. A method according to claim 147, wherein said ions are produced using Electrospray ionization with nebulization assist.
- 149. A method according to claim 147, wherein at least two of said solutions are introduced into said ion source through at least one of said probes through concentric tubes.
- 150. A method according to claim 147, wherein said ions are mass analyzed using a Time-Of-Flight mass spectrometer.
- 151. A method according to claim 147, wherein said ions are mass analyzed using a Quadrupole mass spectrometer.
- 152. A method according to claim 147, wherein said ions are mass analyzed using an Ion Trap mass spectrometer.
- 153. A method according to claim 147, wherein said ions are mass analyzed using a Fourier Transform mass spectrometer.
- 154. A method according to claim 147, wherein said ions are mass analyzed using a Magnetic Sector mass spectrometer.
- 155. A method according to claim 147, wherein said ions are mass analyzed using a hybrid mass spectrometer.
- 156. A method for analyzing chemical species comprising:
a. utilizing an ion source operating substantially at atmospheric pressure, at least two probes configured in said ion source, and a mass analyzer; b. introducing at least two solutions into said ion source through at least two probes; c. introducing at least one solution comprising a known sample substance; d. producing ions from at least two said solutions introduced through said at least two probes; e. producing ions from at said least one solution comprising a known sample substance; f. mixing said ions produced; and g. mass analyzing said mixture of ions produced with said mass analyzer.
- 157. A method according to claim 156, wherein said known sample substance contains chemical components used for mass scale calibration.
- 158. A method according to claim 156, wherein said known chemical components from which said ions are produced result in internal mass scale calibration peaks when mass analyzed.
- 159. A method according to claim 156, wherein at least two of said solutions are introduced into said ion source through at least one of said probes through concentric layered tubes.
- 160. A method according to claim 159, wherein at least one of said solutions introduced into said ion source through said concentric tubes comprises a known sample substance from which said ions are produced which result in internal mass scale calibration peaks when mass analyzed.
- 161. A method for analyzing chemical species comprising:
a. utilizing an ion source operating substantially at atmospheric pressure, at least two probes configured in said ion source, and a mass analyzer; b. introducing at least two solutions into said ion source through at least two probes; c. delivering said at least two solutions utilizing at least two means for delivery; d. producing ions from at least two said solutions introduced through said at least two probes; e. mixing said ions produced; and f. mass analyzing said mixture of ions produced with said mass analyzer.
- 162. A method according to claim 161, wherein at least one said solution is delivered to at least one said probe using a liquid chromatography system.
- 163. A method according to claim 161, wherein at least two of said solutions are delivered to at least two said probes using at least two liquid chromatography systems.
- 164. A method according to claim 161, wherein at least one said solution is delivered to at least one said probe using a capillary electrophoresis system.
- 165. A method according to claim 161, wherein at least two of said solutions are delivered to at least two said probes using at least two capillary electrophoresis systems.
- 166. A method according to claim 161, wherein at least one said solution is delivered to at least one said probe using a liquid pump.
- 167. A method according to claim 161, wherein at least one said solution is delivered to at least one said probe from a solution reservoir.
- 168. A method according to claim 161, wherein at least one said solution is delivered to at least one said probe from a pressurized solution reservoir.
- 169. A method according to claim 161, wherein at least one said solution is delivered to at least one said probe from a liquid delivery system with an injector valve.
- 170. A method according to claim 161, wherein at least two of said solution are delivered to at least two of said probe from at least two liquid delivery systems each with an injector valve.
- 171. A method according to claim 161, wherein at least one said solution is introduced into said ion source using an Electrospray microtip.
- 172. A method according to claim 161, wherein at least one of said solutions is delivered into said ion source using at least one liquid delivery system with an injector valve and at least one of said solutions is delivered into said ion source using at least one liquid chromatography system.
- 173. A method for analyzing chemical species comprising:
a. utilizing an ion source operating substantially at atmospheric pressure, at least two probes configured in said ion source, and a mass analyzer; b. introducing at least two solutions into said ion source through at least two probes; c. delivering said at least two solutions utilizing at least two means for delivery; d. delivering said at least one solution from a means which comprises but is not limited to a chemical separation system; e. producing ions from at least two said solutions introduced through said at least two probes; and f. mass analyzing said ions produced with said mass analyzer.
- 174. A method according to claim 173, wherein said chemical separation system is a liquid chromatography system.
- 175. A method according to claim 173, wherein said chemical separation system is a capillary electrophoresis system.
- 176. A method according to claim 173, wherein said chemical separation system is a capillary electrophoresis chromatography system.
- 177. A method according to claim 173, wherein said chemical separation system is a liquid chromatography system and a electrophoresis chromatography system each supplying separate said solutions into said ion source.
- 178. A method according to claim 173, wherein said ions are produced by using Electrospray ionization.
- 179. A method according to claim 173, wherein said ions are produced by using Electrospray ionization with nebulization assist.
- 180. A method according to claim 173, wherein said ions are produced by using Atmospheric Pressure Chemical Ionization.
- 181. A method according to claim 173, wherein said ions are produced by using Electrospray ionization and Atmospheric Pressure Chemical Ionization.
- 182. A method according to claim 173, wherein said ions are produced by using Inductively Coupled Plasma ionization.
- 183. A method according to claim 173, wherein at least one said solution is delivered to at least one said probe from a liquid delivery system with an injector valve.
- 184. A method according to claim 173, wherein at least two of said solution are delivered to at least two of said probe from at least two liquid delivery systems each with an injector valve.
- 185. A method according to claim 173, wherein at least one of said solutions is delivered into said ion source using at least one liquid delivery system with an injector valve and at least one of said solutions is delivered into said ion source using at least one liquid chromatography system.
- 186. A method for analyzing chemical species comprising:
a. utilizing an ion source operating substantially at atmospheric pressure, at least two probes configured in said ion source, and a mass analyzer; b. introducing at least two solutions into said ion source through at least two probes; c. delivering said at least two solutions to at least two probes from at least two means each comprising but not limited to a chemical separation systems; d. producing ions from at least two said solutions introduced through said at least two probes; and f. mass analyzing said ions produced with said mass analyzer.
- 187. A method according to claim 186, wherein said chemical separation system is a liquid chromatography system.
- 188. A method according to claim 186, wherein said chemical separation system is a capillary electrophoresis system.
- 189. A method according to claim 186, wherein said chemical separation system is a capillary electrophoresis chromatography system.
- 190. A method according to claim 186, wherein said chemical separation system is a liquid chromatography system and a electrophoresis chromatography system each supplying separate said solutions into said ion source.
- 191. A method according to claim 186, wherein said ions are produced by using Electrospray ionization.
- 192. A method according to claim 186, wherein said ions are produced by using Electrospray ionization with nebulization assist.
- 193. A method according to claim 186, wherein said ions are produced by using Atmospheric Pressure Chemical Ionization.
- 194. A method according to claim 186, wherein said ions are produced by using Electrospray ionization and Atmospheric Pressure Chemical Ionization.
- 195. A method according to claim 186, wherein said ions are produced by using Inductively Coupled Plasma ionization.
- 196. A method for acquiring mass spectra containing an internal calibration standard comprising;
a. utilizing an ion source operating substantially at atmospheric pressure, at least two probes configured in said ion source, and a mass analyzer; b. introducing at least two separate solutions into said ion source simultaneously; c. introducing at least one said solution comprising a known sample substance; d. producing ions from at least two said solutions introduced into said ion source; e. producing ions from at said least one solution comprising a known sample substance; f. mixing said ions produced; and g. mass analyzing said mixture of ions produced with said mass analyzer. h. using at least one of said mass spectral peaks which result from said ions produced from said known sample substance as a calibration reference in the mass spectra acquired from said mass analysis.
- 197. A method according to claim 196, wherein at least two of said solutions are introduced into said ion source through at least one of said probes through concentric layered tubes.
- 198. A method according to claim 196, wherein said ions are produced using Electrospray ionization.
- 199. A method according to claim 196, wherein said ions are produced using Electrospray ionization with nebulization assist.
- 200. A method according to claim 196, wherein said ions are produced using Atmospheric Pressure Chemical Ionization.
- 201. A method according to claim 196, wherein said ions are produced using both Electrospray and Atmospheric Pressure Chemical ionization.
- 202. A method according to claim 196, wherein said ions are produced using Inductively Coupled Plasma ionization.
RELATED APPLICATIONS
[0001] The present application claims all rights of priority to U.S. Provisional Application Ser. No. 60/058,683, filed Sep. 12, 1997, U.S. Provisional Application Ser. No. 60/076,118, filed Feb. 27, 1998, and U.S. Provisional Application Ser. No. 60/087,256, filed May 29, 1998, the disclosures of which are fully incorporated herein by reference.
Provisional Applications (3)
|
Number |
Date |
Country |
|
60058683 |
Sep 1997 |
US |
|
60076118 |
Feb 1998 |
US |
|
60087256 |
May 1998 |
US |