| - - - |
Paper Symposium - Fundamental studies in separation science - Editorial
Slater GW |
| 2549 - 2561 |
Electrophoretic capture of circular DNA in gels
Akerman B, Cole KD |
| 2562 - 2568 |
Lattice models of DNA electrophoresis
van Heukelum A, Barkema GT |
| 2569 - 2582 |
Strategies for dielectrophoretic separation in laboratory-on-a-chip systems
Hughes MP |
| 2583 - 2591 |
Single molecule measurements of DNA transport through a nanopore
Meller A, Branton D |
| 2592 - 2601 |
Evaluation of nanopores as candidates for electronic analyte detection
Nakane J, Akeson M, Marziali A |
| 2602 - 2609 |
Concentration gradient used in double-stranded DNA separation by capillary electrophoresis
Liang DH, Chu BJ |
| 2610 - 2617 |
Cyclic capillary electrophoresis
Griess GA, Choi H, Basu A, Valvano JW, Serwer P |
| 2618 - 2625 |
DNA separation at a liquid-solid interface
Seo YS, Samuilov VA, Sokolov J, Rafailovich M, Tinland B, Kim J, Chu B |
| 2626 - 2634 |
Nonlinear electrophoresis of point-like particles - is it possible?
Baskin E, Zilberstein G |
| 2635 - 2641 |
Investigation of the possibility of geometrical electrophoresis
Ueda M, Hayama T, Takamura Y, Horiike Y, Baba Y |
| 2642 - 2652 |
Passive electrophoresis in microchannels using liquid junction potentials
Munson MS, Cabrera CR, Yager P |
| 2653 - 2657 |
Velocity-independent microfluidic flow cytometry
Eyal S, Quake SR |
| 2658 - 2666 |
Trapping of DNA by dielectrophoresis
Asbury CL, Diercks AH, van den Engh G |
| 2667 - 2677 |
Optimization of background electrolytes for capillary electrophoresis: II. Computer simulation and comparison with experiments
Jaros M, Vcelakova K, Zuskova I, Gas B |
| 2678 - 2689 |
Modeling the gel electrophoresis of short duplex DNA by Brownian dynamics: Cubic gel lattice with direct interaction
Allison SA, Li ZY, Reed D, Stellwagen NC |
| 2690 - 2696 |
Modeling the dynamics of DNA electrophoresis on a flat surface
Luo HB, Gersappe D |
| 2697 - 2703 |
Modeling of polynucleotide translocation through protein pores and nanotubes
Kong CY, Muthukumar M |
| 2704 - 2709 |
The propagator (retarded Green function) formalism as a new calculation method to predict the time evolution of bands in capillary electrophoresis and microchannels
Schoffen JR, Mandaji M, Termignoni C, Grieneisen HPH, Kist TBL |
| 2710 - 2719 |
DNA electrophoresis in agarose gels: Effects of field and gel concentration on the exponential dependence of reciprocal mobility on DNA length
Rill RL, Beheshti A, Van Winkle DH |
| 2720 - 2728 |
A general approach to the analysis of errors and failure modes in the base-calling function in automated fluorescent DNA sequencing
Izmailov A, Goloubentzev D, Jin C, Sunay S, Wisco V, Yager TD |
| 2729 - 2744 |
Design and optimization of on-chip capillary electrophoresis
Bharadwaj R, Santiago JG, Mohammadi B |
| 2745 - 2754 |
The effect of obstacle conductivity and electric field on effective mobility and dispersion in electrophoretic transport: A volume averaging approach
Locke BR |
| 2755 - 2765 |
Simultaneous measurements of the electrophoretic mobility, diffusion coefficient and orientation of dsDNA during electrophoresis in polymer solutions
Nkodo AE, Tinland B |
| 2766 - 2776 |
Critical factors for high-performance physically adsorbed (dynamic) polymeric wall coatings for capillary electrophoresis of DNA
Doherty EAS, Berglund KD, Buchholz BA, Kourkine IV, Przybycien TM, Tilton RD, Barron AE |
| 2777 - 2787 |
Microdevice-based measurements of diffusion and dispersion in cross-linked and linear polyacrylamide DNA sequencing gels
Ugaz VM, Burke DT, Burns MA |
| 2788 - 2793 |
Size-based separation of synthetic polyelectrolytes in entangled polymer solution capillary electrophoresis: The effect of binary mixtures of separating polymers differing in molecular mass
Cottet H, Gareil P |
| 2794 - 2803 |
Determining the electrophoretic mobility and translational diffusion coefficients of DNA molecules in free solution
Stellwagen E, Stellwagen NC |
| 2804 - 2817 |
A family of novel DNA sequencing instruments based on single-photon detection
Alaverdian L, Alaverdian S, Bilenko O, Bogdanov I, Filippova E, Gavrilov D, Gorbovitski B, Gouzman M, Gudkov G, Domratchev S, Kosobokova O, Lifshitz N, Luryi S, Ruskovoloshin V, Stepoukhovitch A, Tcherevishnick M, Tyshko G, Gorfinkel V |
