| 493 - 494 |
Fundamentals of electrophoresis 2007 - In memoriam of Andreas Chrambach
Gas B |
| 495 - 498 |
A productive and happy research laboratory: Conditions for its creation and management
Chrambach A |
| 499 - 500 |
The origin of the Ferguson plot
Ferguson KA |
| 501 - 504 |
A decade of electrophoretic experiments and computer simulation studies in the laboratory of Andreas Chrambach
Tietz D |
| 505 - 507 |
Andreas Chrambach and Rene Descartes: Plutarch's parallel lives?
Righetti PG |
| 508 - 511 |
Shotgun electroelution: A proteomic tool for simultaneous sample elution from whole SDS-polyacrylamide gel slabs
Antal J, Banyasz B, Buzas Z |
| 512 - 524 |
Computer-assisted 2-D agarose electrophoresis of Haemophilus influenzae type B meningitis vaccines and analysis of polydisperse particle populations in the size range of viruses: A review
Tietz D |
| 525 - 534 |
FluoMEP: A new genotyping method combining the advantages of randomly amplified polymorphic DNA and amplified fragment length polymorphism
Chang A, Liew WC, Chuah A, Lim Z, Lin QF, Orban L |
| 535 - 544 |
Investigation of hormone activity in butterfly imaginal wing discs by protein expression pattern changes
Cieslak A, Vogler AP, Lafranchi-Tristem N, Dunn MJ, Westbrook JA |
| 545 - 555 |
The Alpher, Bethe and Gamow of IEF, the alpha-Centaury of electrokinetic methodologies. Part II: Immobilized pH gradients
Righetti PG |
| 556 - 571 |
Counter-flow gradient electrofocusing
Shackman JG, Ross D |
| 572 - 586 |
Modeling and simulation of IEF in 2-D microgeometries
Shim J, Dutta P, Ivory CF |
| 587 - 594 |
pH transients during salt removal in isoelectric trapping separations: A curse revisited
Shave E, Vigh G |
| 595 - 610 |
Electrokinetic transport and separations in fluidic nanochannels
Yuan Z, Garcia AL, Lopez GP, Petsev DN |
| 611 - 626 |
Fluid dynamics in capillary and chip electrochromatography
Nischang I, Tallarek U |
| 627 - 634 |
Solute separation in nanofluidic channels: Pressure-driven or electric field-driven?
Xuan XC, Li DQ |
| 635 - 643 |
Analysis of electrokinetic pumping efficiency in capillary tubes
Chein RY, Liao JC |
| 644 - 657 |
Transport and deformation of droplets in a microdevice using dielectrophoresis
Singh P, Aubry N |
| 658 - 664 |
Analysis of electrokinetic transport of a spherical particle in a microchannel
Unni HN, Keh HJ, Yang C |
| 665 - 673 |
Theory of band broadening during cycling temperature capillary electrophoresis
Laachi N, Dorfman KD |
| 674 - 682 |
Molecular deformation and free-solution electrophoresis of DNA-uncharged polymer conjugates at high field strengths: Theoretical predictions. Part 1: Hydrodynamic segregation
McCormick LC, Slater GW |
| 683 - 690 |
Uppsalator's acceleration
Pastushenko VP |
| 691 - 696 |
A dynamic molecular probe to investigate catalytic effects and Joule heating in enantioselective MEKC
Trapp O |
| 697 - 711 |
Dual-opposite-injection CZE: Theoretical aspects and application to organic and pharmaceutical compounds
Weekley BS, Foley JP |
| 714 - 714 |
Method for determining intracapillary solution temperatures: Application to sample zone heating for enhanced fluorescent labeling of proteins (vol 27, pg 1355, 2006)
Giordano A |
