Ion chromatography system and methods utilizing a weak acid or weak base extraction device

What is claimed is: 1. A chromatographic ion separation system comprising a device configured to introduce a volatile strong acid or a volatile strong base to respectively extract a weak acid or weak base from a sample effluent from a chromatographic medium, wherein the device comprises: (a) an introduction section having a first inlet port and a first outlet port downstream of the first inlet port, wherein the first inlet port is configured to receive the volatile strong acid or the volatile strong base; (b) an extraction section having a second inlet port and a second outlet port downstream of the second inlet port, wherein the second inlet port is configured to receive water; (c) a permeable membrane extending through the introduction section and the extraction section, wherein a portion of the permeable membrane in the extraction section is downstream of another portion of the permeable membrane in the introduction section, wherein the permeable membrane is gas permeable and liquid impermeable, wherein the permeable membrane defines an inner surface and an outer surface opposite of the inner surface, wherein the inner surface is configured to be in contact with the sample effluent from the chromatographic medium, wherein the outer surface of the permeable membrane in the introduction section is configured to be fluidly connected with each of the first inlet port and the first outlet port, wherein the outer surface of the permeable membrane in the extraction section is configured to be fluidly connected with each of the second inlet port and the second outlet port; and (d) a conductivity detector coupled with the second outlet port; wherein: i. the introduction section is configured to allow passage of the volatile strong base or the volatile strong acid received within the first inlet port through the permeable membrane from the outer surface to the inner surface of the permeable membrane; and ii. the extraction section is configured to allow passage of the water received from the second inlet port onto the outer surface of the permeable membrane and to extract a protonated weakly dissociating acid or a deprotonated weakly dissociating base through the permeable membrane from the inner surface to the outer surface of the permeable membrane. 2. The chromatographic ion separation system according to claim 1 , wherein the system further comprises a column containing the chromatographic medium and further wherein the column is fluidly connected with the device. 3. The chromatographic ion separation system according to claim 2 , the system further comprising a suppressor fluidly connected with the column, and further wherein the suppressor is located downstream from the column and upstream from the device and the conductivity detector. 4. The chromatographic ion separation system according to claim 3 , the system further comprising a sample injector fluidly connected with the column, wherein the sample injector is located upstream of the column. 5. The chromatographic ion separation system according to claim 3 , the system further comprising an eluent generator fluidly connected with the column, and further wherein the eluent generator is located upstream of the column. 6. The chromatographic ion separation system according to claim 1 , wherein the introduction section is contiguous with and fluidically connected with the extraction section. 7. A method for improved detection of a weakly dissociating base or a weakly dissociating acid in a sample mixture using a permeable membrane device fluidly connected with a chromatographic column, the method comprising: (a) passing a sample mixture through a chromatographic medium; (b) forming an effluent respectively comprising the weakly dissociating base or the weakly dissociating acid; (c) flowing the effluent comprising the weakly dissociating base or the weakly dissociating acid adjacent to a first inner surface of a permeable membrane disposed within the permeable membrane device; (d) respectively permeating a first outer surface of the permeable membrane with a volatile strong acid or a volatile strong base; (e) respectively contacting the volatile strong acid or the volatile strong base with the weakly dissociating base or the weakly dissociating acid to respectively form a salt of the weakly dissociating base or the weakly dissociating acid in the effluent; (f) flowing the effluent comprising the salt of the weakly dissociating base or the weakly dissociating acid adjacent to a second inner surface of the permeable membrane; (g) permeating a second outer surface of the permeable membrane with water; (h) respectively protonating the weakly dissociating base or the weakly dissociating acid in the effluent with the water; (i) respectively flowing the protonated weakly dissociating base or the weakly dissociating acid through the second inner surface of the permeable membrane, out of the permeable membrane and into a conductivity detector; and (j) respectively detecting the conductivity of the protonated weakly dissociating base or the protonated weakly dissociating acid. 8. A method for improved detection of at least one weakly dissociating base or weakly dissociating acid in a sample effluent from a chromatographic medium using the chromatographic ion separation system according to claim 1 , the method comprising: (a) flowing the sample effluent adjacent to the inner surface of a permeable membrane; (b) respectively permeating the outer surface of the permeable membrane with the volatile strong base or the volatile strong acid; (c) respectively contacting the volatile strong acid or the volatile strong base with the at least one weakly dissociating base or weakly dissociating acid in the sample effluent to respectively form a salt of the at least one weakly dissociating base or weakly dissociating acid in the sample effluent; (d) flowing the sample effluent comprising the salt of the at least one weakly dissociating base or weakly dissociating acid into a detector configured to detect the salt of the at least one weakly dissociating base or weakly dissociating acid; and (e) detecting the salt of the at least one weakly dissociating base or weakly dissociating acid.