| 313 - 313 |
Paper symposium - Fundamentals of electrophoresis
Gas B, Bocek P |
| 315 - 324 |
Background and operating parameters in microemulsion electrokinetic chromatography
Altria KD, Mahuzier PE, Clark BJ |
| 325 - 335 |
Retention modeling and resolution optimization for a group of N-phenylpyrazole derivatives in micellar electrokinetic chromatography using empirical and physicochemical models
Garcia-Ruiz C, Jimenez O, Marina ML |
| 336 - 342 |
Analysis of selected withanolides in plant extract by capillary electrochromatography and microemulsion electrokinetic chromatography
Cherkaoui S, Cahours X, Veuthey JL |
| 343 - 350 |
Enhancement of selectivity and resolution in the enantioseparation of uncharged compounds using mixtures of oppositely charged cyclodextrins in capillary electrophoresis
Abushoffa AM, Fillet M, Servais AC, Hubert P, Crommen J |
| 351 - 362 |
Synthesis, analytical characterization and use of octakis(2,3-di-O-methyl-6-O-sulfo)-gamma-cyclodextrin, a novel, single-isomer, chiral resolving agent in low-pH background electrolytes
Busby MB, Lim P, Vigh G |
| 363 - 369 |
Synergistic effects of ion-pairing in the enantiomeric separation of basic compounds with cyclodextrin derivatives in nonaqueous capillary electrophoresis
Servais AC, Fillet M, Abushoffa AM, Hubert P, Crommen J |
| 370 - 379 |
Influence of methanol as a buffer additive on the mobilities of organic cations in capillary electrophoresis
Roy KI, Lucy CA |
| 380 - 389 |
Mathematical modelling of adsorption and transport processes in capillary electrochromatography: Open-tubular geometry
Paces M, Kosek J, Marek M, Tallarek U, Seidel-Morgenstern A |
| 390 - 398 |
Estimation and comparison of zeta-potentials of silica-based anion-exchange type porous particles for capillary electrochromatography from electrophoretic and electroosmotic mobility
Munoz OLS, Hernandez EP, Lammerhofer M, Lindner W, Kenndler E |
| 399 - 407 |
Control of electroosmotic flow in nonaqueous capillary electrophoresis by polymer capillary coatings
Steiner F, Hassel M |
| 408 - 420 |
Capillary electrochromatography with monolithic silica column: I. Preparation of silica monoliths having surface-bound octadecyl moieties and their chromatographic characterization and applications to the separation of neutral and charged species
Allen D, El Rassi Z |
| 421 - 440 |
Sieving mechanisms in polymeric matrices
Sartori A, Barbier V, Viovy JL |
| 441 - 451 |
An exactly solvable Ogston model of gel electrophoresis: X. Application to high-field separation techniques
Gauthier MG, Slater GW |
| 452 - 457 |
Anomalously fast migration of triplet-repeat DNA in capillary electrophoresis with linear polymer solution
Kiba Y, Zhang LH, Baba Y |
| 458 - 465 |
Integrated on-capillary instrumentation for gene expression measurement directly from cells
Matsunaga H, Anazawa T, Yeung ES |
| 466 - 485 |
Stacking phenomena in electromigration: From basic principles to practical procedures
Urbanek M, Krivankova L, Bocek P |
| 486 - 497 |
Sample stacking revisited: A personal perspective
Chien RL |
| 498 - 504 |
High-sensitive capillary zone electrophoresis analysis by electrokinetic injection with transient isotachophoretic preconcentration: Electrokinetic supercharging
Hirokawa T, Okamoto H, Gas B |
| 505 - 517 |
Chloride present in biological samples as a tool for enhancement of sensitivity in capillary zone electrophoretic analysis of anionic trace analytes
Krivankova L, Pantuckova P, Gebauer P, Bocek P, Caslavska J, Thormann W |
| 518 - 535 |
The preparation of background electrolytes capillary zone electrophoresis: Golden rules and pitfalls
Beckers JL, Bocek P |
| 536 - 547 |
Eigenmobilities in background electrolytes for capillary zone electrophoresis: II. Eigenpeaks in univalent weak electrolytes
Stedry M, Jaros M, Vcelakova K, Gas B |
| 548 - 556 |
Ampholytes as background electrolytes in capillary zone electrophoresis: Sense or nonsense? Histidine as a model ampholyte
Beckers JL |
| 557 - 566 |
Sensitive indirect photometric detection of inorganic and small organic anions by capillary electrophoresis using Orange G as a probe ion
Johns C, Shaw MJ, Macke M, Haddad PR |
| 567 - 574 |
Indirect laser-induced fluorescence detection for capillary electrophoresis using a frequency-doubled diode laser
Ragozina N, Putz M, Faubel W, Pyell U |
