Authors:
Valko, K
Espinosa, S
Du, CM
Bosch, E
Roses, M
Bevan, C
Abraham, MH
Citation: K. Valko et al., Unique selectivity of perfluorinated stationary phases with 2,2,2-trifluoroethanol as organic mobile phase modifier, J CHROMAT A, 933(1-2), 2001, pp. 73-81
Citation: I. Canals et al., Retention of ionizable compounds on HPLC. 6. pH measurements with the glass electrode in methanol-water mixtures, J CHROMAT A, 911(2), 2001, pp. 191-202
Citation: M. Roses et al., Retention of ionizable compounds on high-performance liquid chromatographyVII. Characterization of the retention of ionic solutes in a C-18 column by mass spectrometry with electrospray ionization, J CHROMAT A, 910(2), 2001, pp. 187-194
Authors:
Fuguet, E
Rafols, C
Bosch, E
Roses, M
Abraham, MH
Citation: E. Fuguet et al., Solute-solvent interactions in micellar electrokinetic chromatography - Selectivity of lithium dodecyl sulfate-lithium perfluorooctanesulfonate mixed-micellar buffers, J CHROMAT A, 907(1-2), 2001, pp. 257-265
Authors:
Canals, I
Valko, K
Bosch, E
Hill, AP
Roses, M
Citation: I. Canals et al., Retention of ionizable compounds on HPLC. 8. Influence of mobile-phase pH change on the chromatographic retention of acids and bases during gradient elution, ANALYT CHEM, 73(20), 2001, pp. 4937-4945
Authors:
Torres-Lapasio, JR
Roses, M
Bosch, E
Garcia-Alvarez-Coque, MC
Citation: Jr. Torres-lapasio et al., Interpretive optimisation strategy applied to the isocratic separation of phenols by reversed-phase liquid chromatography with acetonitrile-water andmethanol-water mobile phases, J CHROMAT A, 886(1-2), 2000, pp. 31-46
Citation: I. Canals et al., Retention of ionizable compounds on HPLC. 4. Mobile-phase pH measurement in methanol/water, ANALYT CHEM, 72(8), 2000, pp. 1802-1809
Citation: S. Espinosa et al., Retention of ionizable compounds on HPLC. 5. pH scales and the retention of acids and bases with acetonitrile-water mobile phases, ANALYT CHEM, 72(21), 2000, pp. 5193-5200
Authors:
Roses, M
Rafols, C
Bosch, E
Martinez, AM
Abraham, MH
Citation: M. Roses et al., Solute-solvent interactions in micellar electrokinetic chromatography - Characterization of sodium dodecyl sulfate-Brij 35 micellar systems for quantitative structure-activity relationship modelling, J CHROMAT A, 845(1-2), 1999, pp. 217-226
Citation: K. Herodes et al., Solute-solvent and solvent-solvent interactions in binary solvent mixtures. Part 8. The E-T(30) polarity of binary mixtures of formamides with hydroxylic solvents, J PHYS ORG, 12(2), 1999, pp. 109-115
Citation: E. Bosch et al., Hammett-Taft and Drago models in the prediction of acidity constant valuesof neutral and cationic acids in methanol, J CHEM S P2, (9), 1999, pp. 1953-1958
Citation: Fz. Oumada et al., Solute-solvent interactions in normal-phase liquid chromatography: a linear free-energy relationships study, ANALYT CHIM, 382(3), 1999, pp. 301-308
Citation: M. Roses et al., Comparison of solute descriptors for predicting retention of ionic compounds (phenols) in reversed-phase liquid chromatography using the solvation parameter model, J CHROMAT A, 829(1-2), 1998, pp. 29-40