| - - - |
Paper symposium - Solvent effects in capillary electrophoresis
Kenndler E |
| 1485 - 1498 |
The principles of migration and dispersion in capillary zone electrophoresis in nonaqueous solvents
Porras SP, Riekkola ML, Kenndler E |
| 1499 - 1507 |
Effects of background electrolyte composition and addition of selectors on separation selectivity in nonaqueous capillary electrophoresis
Fillet M, Servais AC, Crommen J |
| 1508 - 1529 |
Effects of organic solvents on sample pretreatment and separation performances in capillary electrophoresis
Huie CW |
| 1530 - 1536 |
The role of organic solvents in the separation of nonionic compounds by capillary electrophoresis
Fritz JS |
| 1537 - 1543 |
Solvent effects in microemulsion electrokinetic chromatography
Klampfl CW |
| 1544 - 1552 |
Capillary zone electrophoresis in methanol: Migration behavior and background electrolytes
Beckers JL, Ackermans MT, Bocek P |
| 1553 - 1564 |
Influence of solvent on temperature and thermal peak broadening in capillary zone electrophoresis
Porras SP, Marziali E, Gas B, Kenndler E |
| 1565 - 1576 |
Peak dispersion and contributions to plate height in nonaqueous capillary electrophoresis at high electric field strengths: Propanol as background electrolyte solvent
Palonen S, Porras SP, Jussila M, Riekkola ML |
| 1577 - 1586 |
Influence of electrolyte nature on the separation selectivity of amphetamines in nonaqueous capillary electrophoresis: Protonation degree versus ion pairing effects
Descroix S, Varenne A, Geiser L, Cherkaoui S, Veuthey JL, Gareil P |
| 1587 - 1595 |
Modeling the zeta potential of silica capillaries in relation to the background electrolyte composition
Berli CLA, Piaggio MV, Deiber JA |
| 1596 - 1602 |
Comparison of different algorithms to calculate electrophoretic mobility of analytes as a function of binary solvent composition
Jouyban A, Chan HK, Clark BJ, Kenndler E |
| 1603 - 1611 |
Dual stacking of unbuffered saline samples, transient isotachophoresis plus induced pH junction focusing
Shim SH, Riaz A, Choi KW, Chung DS |
| 1612 - 1619 |
Capillary electrophoretic study of the binding of zinc(II) ion to bacitracin A(1) in water-2,2,2-trifluoroethanol
Castagnola M, Rossetti DV, Inzitari R, Vitali A, Lupi A, Zuppi C, Cabras T, Fadda MB, Podda I, Petruzzelli R, Giardina B, Messana I |
| 1620 - 1626 |
Salt dependence on vancomycin-herbicide enantiomer binding: Capillary electrophoresis study and theoretical approach
Andre C, Guillaume YC |
| 1627 - 1634 |
Heteroconjugation-based capillary electrophoretic separation of phenolic compounds in acetonitrile and propylene carbonate
Kuldvee R, Vaher M, Koel M, Kaljurand M |
| 1635 - 1640 |
Electrophoretic analysis of quinone anion radicals in acetonitrile solutions using an on-line radical generator
Esaka Y, Okumura N, Uno B, Goto M |
| 1641 - 1647 |
Method development for the analysis of trans-fatty acids in hydrogenated oils by capillary electrophoresis
de Oliveira MAL, Solis VES, Gioielli LA, Polakiewicz B, Tavares MFM |
| 1648 - 1657 |
Separation of (Z)- and (E)-isomers of thioxanthene and dibenz[b,e]oxepin derivatives with calixarenes and resorcinarenes as additives in nonaqueous capillary electrophoresis
Sokoliess T, Gronau M, Menyes U, Roth U, Jira T |
| 1658 - 1667 |
Microemulsion electrokinetic chromatography for the analysis of green tea catechins: Effect of the cosurfactant on the separation selectivity
Pomponio R, Gotti R, Luppi B, Cavrini V |
| 1668 - 1679 |
Enantioselective strong cation-exchange molecular recognition materials: Design of novel chiral stationary phases and their application for enantioseparation of chiral bases by nonaqueous capillary electrochromatography
Constantin S, Bicker W, Zarbl E, Lammerhofer M, Lindner W |
| 1680 - 1686 |
Capillary electrophoresis of cardiolipin with on-line dye interaction and spectrophotometric detection
Qi LN, Danielson ND, Dai Q, Lee RM |
| 1687 - 1692 |
Effect of diluting agent on sensitivity in capillary electrophoresis with amperometric detection
Wang QJ, Ding F, Li H, He PG, Fang YZ |
