1. Core concepts and milestones in the development of ion-exchange separations2. Theoretical considerations for the separation of ions3. Ion-exchange equilibria and kinetics of biopolymers4. Stationary phases for ion separations by ion-exchange chromatography5. Stationary phases for the separation of biopolymers by ion-exchange chromatography6. Ion-exchange separations on grafted and surface-modified polymers7. Liquid ion-exchangers8. Ion-exchange membranes9. Ion-exclusion chromatography10. Ion-chelation chromatography11. Displacement chromatography with ion exchangers12. Instrument platforms for ion chromatography13. Ion detection14. Instrument platforms for large-scale ion-exchange separations15. Method development for ion-exchange chromatography16. Sample preparation for ion-exchange separations17. Separation of ions by ion chromatography18. Applications of ion chromatography in environmental analysis19. Applications of ion-exchange chromatography in the food industry20. Applications of ion-exchange chromatography in hydrometallurgy21. Separation of saccharides by ion-exchange chromatography22. Separation of oligonucleotides by ion-exchange chromatography23. Separation of amino acids, peptides, and proteins by ion-exchange chromatography24. Separation of proteins by mixed-mode chromatography25. Process modeling of protein separations by ion-exchange chromatography26. Applications of Ion-exchange chromatography for the purification of antibodies27. Continuous chromatography for protein polishing and enrichment using ion exchange28. Separation of bio-particles by ion-exchange chromatography29. Separation of isotopes by ion-exchange and ion-chelation chromatography
