Ion exchange foams to remove ions from samples

What is claimed is: 1. A filter comprising an ion exchange foam, the ion exchange foam including: a copolymer including at least a divinylbenzene and a monomer, the copolymer having a void volume; ion exchange resin particles disposed in the void volume and bound to the ion exchange foam, the ion exchange foam including from about 40% to about 60% of the ion exchange resin particles by volume; and an open cell foam configured to filter a liquid sample through the ion exchange foam. 2. The filter of claim 1 , in which the ion exchange resin particles have a diameter ranging from about 4 microns to about 20 microns. 3. The filter of claim 1 , in which the ion exchange foam is configured to have a flow rate ranging from about 0.5 mL per minute to about 10 mL per minute when displacing the liquid sample through the ion exchange foam at a pressure of 50 pounds per square inch or less. 4. The filter of claim 1 , in which the ion exchange foam has a permeability ranging from about 1×10 −11 m 2 to about 1×10 −16 m 2 . 5. The filter of claim 1 , in which the monomer is selected from the group consisting of a styrenic monomer, acrylate, methacrylate, and a combination thereof. 6. The filter of claim 1 , in which the monomer is a styrenic monomer. 7. A method of removing ions from a liquid sample, the method comprising: pushing a plunger cap towards a bottom wall of a sample vial, the sample vial including a side wall and a bottom wall, and containing a liquid sample, the plunger cap including a filter plug, the filter plug comprising the ion exchange foam of claim 1 ; displacing the liquid sample out of the sample vial through the filter plug; and removing a portion of the ions from the liquid sample, at the same time of the displacing, when the liquid sample flows through the filter plug. 8. The method claim 7 , in which the displaced liquid sample loads a sample loop of an injection valve, the method further comprising: injecting the liquid sample to a chromatographic separation device; separating at least one analyte from matrix components in the liquid sample on the chromatographic separation device; and detecting the at least one analyte separated from the matrix components at a detector. 9. The method of claim 8 , in which the displacing has a flow rate ranging from about 0.5 mL per minute to about 10 mL per minute at a pressure of 50 pounds per square inch or less. 10. A filter comprising the ion exchange foam of claim 1 , in which the ion exchange foam has a capacity per unit volume ranging from about 1 milliequivalents per cubic centimeter to about 50 milliequivalents per cubic centimeter. 11. The filter of claim 10 , in which the ion exchange resin particles have a diameter ranging from about 4 microns to about 20 microns. 12. The filter of claim 10 , in which the ion exchange foam has a permeability ranging from about 1×10 −11 m 2 to about 1×10 −16 m 2 . 13. The filter of claim 10 , in which the monomer is selected from the group consisting of a styrenic monomer, acrylate, methacrylate, and a combination thereof. 14. The filter of claim 10 , in which the monomer is a styrenic monomer. 15. A filter comprising the ion exchange foam of claim 1 , wherein the ion exchange particles disposed in the void volume and bound to the ion exchange foam through physical entrapment. 16. The filter of claim 15 , in which the ion exchange foam has a capacity per unit volume ranging from about 1 milliequivalents per cubic centimeter to about 50 milliequivalents per cubic centimeter. 17. The filter of claim 15 , in which the ion exchange resin particles have a diameter ranging from about 4 microns to about 20 microns. 18. The filter of claim 15 , in which the ion exchange foam has a permeability ranging from about 1×10 −11 m 2 to about 1×10 −16 m 2 . 19. The filter of claim 15 , in which the monomer is selected from the group consisting of a styrenic monomer, acrylate, methacrylate, and a combination thereof. 20. The filter of claim 15 , in which the monomer is a styrenic monomer.