Current-efficient suppressor and pretreatment device and method

What is claimed is: 1. Apparatus for treating an aqueous sample stream including analyte ions of one charge, positive or negative, said apparatus comprising a first ion exchange barrier capable of passing only ions of opposite charge to said analyte ions; a sample stream flow channel; an ion receiving stream flow channel adjacent to said sample stream flow channel and separated therefrom by said first ion exchange barrier; a stationary flow-through first ion exchange packing disposed in said sample stream flow channel of the same charge, positive or negative, as said first ion exchange barrier; said stationary flow-through first ion exchange packing having exchangeable ions of opposite charge to said analyte ions and comprising pre-mixed ion exchange particles, said pre-mixed ion exchange particles comprising, in an intimate mixture, a first ion exchange portion with strong ionizable groups and a second ion exchange portion with weak ionizable groups, both portions having ion exchange capacity of the same charge, positive or negative; and first and second electrodes in electrical communication with said sample stream flow channel and said ion receiving stream flow channel, respectively. 2. The apparatus of claim 1 further comprising second stationary flow-through ion exchange packing disposed in said ion receiving stream flow channel of the same charge, positive or negative, as said first ion exchange barrier. 3. The apparatus of claim 1 wherein said first ion exchange portion ranges from about 40 to 97 weight % of said pre-mixed ion exchange particles. 4. The apparatus of claim 3 wherein said second ion exchange portion ranges from about 3 to 60 weight % of said pre-mixed ion exchange particles. 5. The apparatus of claim 1 in combination with apparatus for performing ion chromatography, further comprising a chromatographic separator in fluid combination with said sample stream flow channel; and a detector for said analyte ions in fluid communication with an outlet of said sample stream flow channel. 6. The apparatus of claim 1 for pretreatment of a sample stream and in combination with chromatography apparatus, said apparatus further comprising a chromatographic separator having an inlet and an outlet, said chromatographic separator inlet being in fluid communication with said sample stream flow channel; and a detector for said analyte in fluid communication with the outlet of said chromatographic separator. 7. The apparatus of claim 1 further comprising a second ion exchange barrier on the opposite side of said sample stream flow channel from said first ion exchange barrier and of the same charge, positive or negative; and an ion source stream flow channel adjacent said second ion exchange barrier. 8. The apparatus of claim 7 in which said second electrode is disposed in said ion receiving flow stream channel and said first electrode is disposed in said ion source stream flow channel. 9. The apparatus of claim 1 wherein said first electrode is disposed in said ion receiving stream flow channel and said second electrode is disposed in said sample stream flow channel. 10. The apparatus of claim 1 further comprising a constant voltage source connected to said first and second electrodes. 11. A method for treating an aqueous sample stream including analyte ions of one charge, positive or negative, said method comprising flowing the sample stream through a sample stream flow channel and out an outlet thereof in a device; and simultaneously flowing an aqueous ion receiving stream through an ion receiving stream flow channel in said device, said ion receiving stream flow channel separated from said sample stream flow channel by a first ion exchange barrier capable of passing only ions of opposite charge to said analyte ions, while passing a current between said sample stream flow channel and said ion receiving stream flow channel; said sample stream flow channel having stationary flow-through first ion exchange packing having exchangeable ions, said exchangeable ions having an opposite charge to said analyte ions disposed in said sample stream flow channel where both said stationary flow-through first ion exchange packing and said analyte ions have the same charge, positive or negative, as said first ion exchange barrier; said stationary flow-through first ion exchange packing comprising pre-mixed ion exchange particles, said pre-mixed ion exchange particles comprising, in an intimate mixture, a first ion exchange portion with strong ionizable groups and a second ion exchange portion with weak ionizable groups, both portions having the same charge, positive or negative. 12. The method of claim 11 in which said ion receiving stream flow channel includes stationary flow-through second ion exchange packing of the same charge as said first ion exchange barrier, positive or negative. 13. The method of claim 11 wherein said first ion exchange portion ranges from about 40 to 97 weight % of said pre-mixed ion exchange particles. 14. The method of claim 13 wherein said second ion exchange portion ranges from about 3 to 60 weight % of said pre-mixed ion exchange particles. 15. The method of claim 11 in which said passed current is generated at a substantially constant voltage during said treating method. 16. The method of claim 11 further comprising flowing matrix ions, of opposite charge to said analyte ions, to said sample stream flow channel; and transporting the matrix ions out of said sample stream flow channel across said first ion exchange barrier. 17. The method of claim 16 further comprising detecting said analyte ions flowing out the outlet of said sample stream flow channel. 18. The method of claim 11 further comprising flowing an ion source aqueous stream through an aqueous stream ion source stream flow channel in said device separated from said sample stream flow channel by a second ion exchange barrier capable of passing only ions of opposite charge to said analyte ions, said current passing from said ion source stream flow channel through said sample stream flow channel to said ion receiving stream flow channel. 19. The method of claim 18 wherein said current is passed between a first electrode disposed in said ion receiving flow channel and a second electrode disposed in said ion source stream flow channel.