| 713 - 713 |
Fundamentals of Electrophoresis
Gas B |
| 714 - 722 |
Analysis of charge heterogeneities in mAbs using imaged CE
He XPZ, Que AH, Mo JJ |
| 723 - 731 |
Dispersion of protein bands in a horseshoe microchannel during IEF
Shim J, Dutta P, Ivory CF |
| 732 - 741 |
Colloidal particle deposition from electrokinetic flow in a microfluidic channel
Unni HN, Yang C |
| 742 - 757 |
IEF in microfluidic devices
Sommer GJ, Hatch AV |
| 758 - 765 |
Two-dimensional protein separation in microfluidic devices
Chen H, Fan ZH |
| 766 - 772 |
Continuous particle separation by size via AC-dielectrophoresis using a lab-on-a-chip device with 3-D electrodes
Cetin B, Kang Y, Wu ZM, Li DQ |
| 773 - 781 |
Electrophoretic motion of ideally polarizable particles in a microchannel
Wu Z, Gao YD, Li DQ |
| 782 - 791 |
Dual frequency dielectrophoresis with interdigitated sidewall electrodes for microfluidic flow-through separation of beads and cells
Wang L, Lu J, Marukenko SA, Monuki ES, Flanagan LA, Lee AP |
| 792 - 818 |
Modeling the separation of macromolecules: A review of current computer simulation methods
Slater GW, Holm C, Chubynsky MV, de Haan HW, Dube A, Grass K, Hickey OA, Kingsburry C, Sean D, Shendruk TN, Nhan LX |
| 819 - 830 |
Simulations of IEF in microchannel with variable cross-sectional area
Chou Y, Yang RJ |
| 831 - 838 |
Numerical calculation of the dielectrophoretic force on a slender body
Lin Y, Shiomi J, Amberg G |
| 839 - 847 |
Evaluation of Peakmaster for computer aided multivariate optimisation of a CE separation of 17 antipsychotic drugs using minimal experimental data
Johns KF, Breadmore MC, Brudo R, Haddad PR |
| 848 - 851 |
GelBandFitter - A computer program for analysis of closely spaced electrophoretic and immunoblotted bands
Mitov MI, Greaser ML, Campbell KS |
| 852 - 865 |
Bioanalytical separations using electric field gradient techniques
Meighan MM, Staton SJR, Hayes MA |
| 866 - 874 |
System effects in sample self-stacking CZE: Single analyte peak splitting of salt-containing samples
Mala Z, Gebauer P, Bocek P |
| 875 - 882 |
Analyte focusing by micelle collapse in CZE: Nanopreparation of neutrals
Quirino JP |
| 883 - 889 |
Capillary electrophoretic and computational study of the complexation of valinomycin with rubidium cation
Ehala S, Dybal J, Makrlik E, Kasicka V |
| 890 - 896 |
Two variable semi-empirical and artificial neural-network-based modeling of peptide mobilities in CZE: The effect of temperature and organic modifier concentration
Mittermayr S, Chovan T, Guttman A |
| 897 - 909 |
Joule heating effects and the experimental determination of temperature during CE
Evenhuis CJ, Haddad PR |
| 910 - 920 |
Determination of the surface heat-transfer coefficient in CE
Hruska V, Evenhuis CJ, Guile RM, Macka M, Gas B, Marriott PJ, Haddad PR |
| 921 - 929 |
The EOF of polymer solutions
Olivares ML, Vera-Candioti L, Berli CLA |
