| - - - |
Paper symposium - Miniaturization innovations
Foret F |
| 3461 - 3473 |
Components for integrated poly(dimethylsiloxane) microfluidic systems
Ng JMK, Gitlin I, Stroock AD, Whitesides GM |
| 3474 - 3478 |
A world-to-chip socket for microfluidic prototype development
Yang Z, Maeda R |
| 3479 - 3486 |
A hybrid microdevice for electrophoresis and electrochromatography using UV detection
Vegvari A, Hjerten S |
| 3487 - 3495 |
Towards a microchip-based chromatographic platform. Part 1: Evaluation of sol-gel phases for capillary electrochromatography
Breadmore MC, Shrinivasan S, Wolfe KA, Power ME, Ferrance JP, Hosticka B, Norris PM, Landers JP |
| 3496 - 3503 |
Continuous separation of biomolecules by the laterally asymmetric diffusion array with out-of-plane sample injection
Cabodi M, Chen YF, Turner SWP, Craighead HG, Austin RH |
| 3504 - 3510 |
Microfabrication of a tapered channel for isoelectric focusing with thermally generated pH gradient
Huang TM, Pawliszyn J |
| 3511 - 3519 |
Fabrication of a glass-implemented microcapillary electrophoresis device with integrated contactless conductivity detection
Berthold A, Laugere F, Schellevis H, de Boer CR, Laros M, Guijt RM, Sarro PM, Vellekoop MJ |
| 3520 - 3527 |
Optimization of the high-frequency contactless conductivity detector for capillary electrophoresis
Gas B, Zuska J, Coufal P, van de Goor T |
| 3528 - 3536 |
Performance of an in-plane detection cell with integrated waveguides for UV/Vis absorbance measurements on microfluidic separation devices
Petersen NJ, Mogensen KB, Kutter JP |
| 3537 - 3544 |
An integrated solid-phase extraction system for sub-picomolar detection
Jemere AB, Oleschuk RD, Ouchen F, Fajuyigbe F, Harrison DJ |
| 3545 - 3549 |
Increase of separation resolution through field enhancement in microchips
Kerby MB, Chien RL |
| 3550 - 3557 |
Automation for continuous analysis on microchip electrophoresis using flow-through sampling
Lin CC, Lee GB, Chen SH |
| 3558 - 3566 |
A dynamically modified microfluidic poly(dimethylsiloxane) chip with electrochemical detection for biological analysis
Dou YH, Bao N, Xu JJ, Chen HY |
| 3567 - 3573 |
Poly(vinyl alcohol)-coated microfluidic devices for high-performance microchip electrophoresis
Belder D, Deege A, Kohler F, Ludwig M |
| 3574 - 3582 |
Electroosmotic flow in capillary channels filled with nonconstant viscosity electrolytes: Exact solution of the Navier-Stokes equation
Otevrel M, Kleparnik K |
| 3583 - 3588 |
Integration of a membrane-based desalting step in a microfabricated disposable polymer injector for mass spectrometric protein analysis
Lion N, Gobry V, Jensen H, Rossier JS, Girault H |
| 3589 - 3598 |
Integration of solid-phase extraction membranes for sample multiplexing: Application to rapid protein identification from gel-isolated protein extracts
Bonneil E, Li JJ, Tremblay TL, Bergeron JJ, Thibault P |
| 3599 - 3607 |
A miniaturized multichamber solution isoelectric focusing device for separation of protein digests
Tan AM, Pashkova A, Zang L, Foret F, Karger BL |
| 3608 - 3614 |
DNA separation by microchip electrophoresis using low-viscosity hydroxypropylmethylcellulose-50 solutions enhanced by polyhydroxy compounds
Xu F, Jabasini M, Baba Y |
| 3615 - 3622 |
Low-density lipoprotein analysis in microchip capillary electrophoresis systems
Ceriotti L, Shibata T, Folmer B, Weiller BH, Roberts MA, de Rooij NF, Verpoorte E |
| 3623 - 3629 |
Determination of monoclonal antibody production in cell culture using novel microfluidic and traditional assays
Ohashi R, Otero JM, Chwistek A, Hamel JFP |
| 3630 - 3637 |
Determination of bromate in drinking water by zone electrophoresis-isotachophoresis on a column-coupling chip with conductivity detection
Bodor P, Kaniansky D, Masar M, Silleova K, Stanislawski B |
| 3638 - 3645 |
Miniaturized capillary isoelectric focusing in plastic microfluidic devices
Tan W, Fan ZH, Qiu CX, Ricco AJ, Gibbons I |
