| 561 - 562 |
Fundamentals of Electrophoresis
Dutta P |
| 563 - 571 |
Maximizing fluid delivered by bubble-free electroosmotic pump with optimum pulse voltage waveform
Tawfik ME, Diez FJ |
| 572 - 579 |
Joule heating effects on electroosmotic entry flow
Prabhakaran RA, Zhou YL, Patel S, Kale A, Song YX, Hu GQ, Xuan XC |
| 580 - 595 |
Direct simulation of electroosmosis around a spherical particle with inhomogeneously acquired surface charge
Alizadeh A, Wang MR |
| 596 - 606 |
Slip-driven electroosmotic transport through porous media
Gaikwad H, Mondal PK |
| 607 - 616 |
Dual-opposite injection capillary electrophoresis: Principles and misconceptions
Blackney DM, Foley JP |
| 617 - 623 |
Design, installation, and performance evaluation of a custom dye matrix standard for automated capillary electrophoresis
Cloete KW, Ristow PG, Kasu M, D'Amato ME |
| 624 - 632 |
On the ionic strength dependence of the electrophoretic mobility: From 2D to 3D slope-plots
Cottet H, Wu HF, Allison SA |
| 633 - 644 |
An effective placental cotyledons proteins extraction method for 2D gel electrophoresis
Tan NJ, Daim LDJ, Jamil AAM, Mohtarrudin N, Thilakavathy K |
| 645 - 652 |
A multi-module microfluidic platform for continuous pre-concentration of water-soluble ions and separation of oil droplets from oil-in-water (O/W) emulsions using a DC-biased AC electrokinetic technique
Das D, Phan DT, Zhao YG, Kang YJ, Chan V, Yang C |
| 653 - 658 |
Langevin dynamcis simulations of driven polymer translocation into a cross-linked gel
Sean D, Slater GW |
| 659 - 666 |
Steady-state protein focusing in carrier ampholyte based isoelectric focusing: Part I-Analytical solution
Shim J, Yoo K, Dutta P |
| 667 - 676 |
Steady-state protein focusing in carrier ampholyte-based isoelectric focusing: Part II-validation and case studies
Shim J, Yoo K, Dutta P |
| 677 - 688 |
Modeling of formation and prevention of a pure water zone in capillary isoelectric focusing with narrow pH range carrier ampholytes
Takacsi-Nagy A, Kilar F, Thormann W |
| 689 - 701 |
Streaming potential of superhydrophobic microchannels
Park HM, Kim D, Kim SY |
| 702 - 711 |
Confinement effects on electroconvective instability
Andersen MB, Wang KM, Schiffbauer J, Mani A |
| 712 - 719 |
Solvent-mediated nonelectrostatic ion-ion interactions predicting anomalies in electrophoresis
Goswami P, Dhar J, Ghosh U, Chakraborty S |
| 720 - 729 |
Thermodynamics, electrostatics, and ionic current in nanochannels grafted with pH-responsive end-charged polyelectrolyte brushes
Chen G, Das S |
| 730 - 737 |
Performance and selectivity of cationic nanoparticle pseudo-stationary phases in electrokinetic chromatography
McGettrick JR, Williamson NH, Sutton AT, Palmer CP |
| 738 - 746 |
Phospholipid bilayer affinities and solvation characteristics by electrokinetic chromatography with a nanodisc pseudostationary phase
Penny WM, Steele HB, Ross JBA, Palmer CP |
| 747 - 754 |
Capillary transport of two immiscible fluids in presence of electroviscous retardation
Bandopadhyay A, Mandal S, Chakraborty S |
