| 3477 - 3477 |
Paper symposium - Miniaturization 2004
Foret F |
| 3479 - 3491 |
New directions of miniaturization within the biomarker research area
Marko-Varga GA, Nilsson J, Laurell T |
| 3492 - 3497 |
Separation of biomolecules using electrophoresis and nanostructures
Kist TBL, Mandaji M |
| 3498 - 3512 |
Recent developments in detection for microfluidic systems
Mogensen KB, Klank H, Kutter JP |
| 3513 - 3527 |
Fundamentals and practice for ultrasensitive laser-induced fluorescence detection in microanalytical systems
Johnson ME, Landers JP |
| 3528 - 3549 |
Recent developments in electrochemical detection for microchip capillary electrophoresis
Vandaveer WR, Pasas-Farmer SA, Fischer DJ, Frankenfeld CN, Lunte SM |
| 3550 - 3563 |
Immobilized microfluidic enzymatic reactors
Krenkova J, Foret F |
| 3564 - 3588 |
DNA sequencing and genotyping in miniaturized electrophoresis systems
Kan CW, Fredlake CP, Doherty EAS, Barron AE |
| 3589 - 3601 |
Wall coating for capillary electrophoresis on microchips
Dolnik V |
| 3602 - 3624 |
Determination of inorganic ions using microfluidic devices
Evenhuis CJ, Guijt RM, Macka M, Haddad PR |
| 3625 - 3632 |
Dielectrophoresis of nanoparticles
Kadaksham ATJ, Singh P, Aubry N |
| 3633 - 3642 |
Unsteady transport phenomena in free-flow electrophoresis -prerequisite of ultrafast sample cleaning in microfluidic devices
Kleparnik K, Otevrel M |
| 3643 - 3651 |
Parallel isoelectric focusing II
Zilberstein GV, Baskin EM, Bukshpan S, Korol LE |
| 3652 - 3659 |
High-resolution DNA separation in microcapillary electrophoresis chips utilizing double-L injection techniques
Fu LM, Lin CH |
| 3660 - 3668 |
Nanowires for surface enlargement of narrow-bore fused-silica tubing
Woldegiorgis A, Jansson K, Curcio M, Roeraade J |
| 3669 - 3676 |
Enzymatic reaction of the immobilized enzyme on porous silicon studied by matrix-assisted laser desorption/ionization-time of flight-mass spectrometry
Xu SY, Pan CS, Hu LG, Zhang Y, Guo Z, Li X, Zou HF |
| 3677 - 3686 |
Exploiting the benefits of miniaturization for the enhancement of DNA microarrays
Vanderhoeven J, Pappaert K, Dutta B, Vanhummelen P, Baron GV, Desmet G |
| 3687 - 3693 |
Electrokinetic pumping and detection of low-volume flows in nanochannels
Mela P, Tas NR, Berenschot EJW, van Nieuwkasteele J, van den Berg A |
| 3694 - 3704 |
Peak compression and resolution for electrophoretic separations in diverging microchannels
Ross D, Ivory CF, Locascio LE, Van Cott KE |
| 3705 - 3711 |
Electroosmotic guiding of sample flows in a laminar flow chamber
Besselink GAJ, Vulto P, Lammertink RGH, Schlautmann S, van den Berg A, Olthuis W, Engbers GHM, Schasfoort RBM |
| 3712 - 3719 |
Genotyping by dynamic heating of monolayered beads on a microheated surface
Russom A, Haasl S, Ohlander A, Mayr T, Brooker AJ, Andersson H, Stemme G |
| 3720 - 3729 |
A simple mechanism for reliable particle sorting in a microdevice with combined electroosmotic and pressure-driven flow
Johann R, Renaud P |
| 3730 - 3739 |
Microbead-based affinity chromatography chip using RNA aptamer modified with photocleavable linker
Cho S, Lee SH, Chung WJ, Kim YK, Lee YS, Kim BG |
| 3740 - 3745 |
The potential of autofluorescence for the detection of single living cells for label-free cell sorting in microfluidic systems
Emmelkamp J, Wolbers F, Andersson H, DaCosta RS, Wilson BC, Vermes I, van den Berg A |
| 3746 - 3760 |
Neuron-based microarray sensors for environmental sensing
Prasad S, Zhang X, Ozkan CS, Ozkan M |
| 3761 - 3768 |
Gravity-induced convective flow in microfluidic systems: Electrochemical characterization and application to enzyme-linked immunosorbent assay tests
Morier P, Vollet C, Michel PE, Reymond F, Rossier JS |
| 3769 - 3777 |
Integrated selective enrichment target - a microtechnology platform for matrix-assisted laser desorption/ionization-mass spectrometry applied on protein biomarkers in prostate diseases
Ekstrom S, Wallman L, Malm J, Becker C, Lilja H, Laurell T, Marko-Varga G |
| 3778 - 3787 |
Autonomous protein sample processing on-chip using solid-phase microextraction, capillary force pumping, and microdispensing
Wallman L, Ekstrom S, Marko-Varga G, Laurell T, Nilsson J |
| 3788 - 3795 |
Pure-silica optical waveguides, fiber couplers, and high-aspect ratio submicrometer channels for electrokinetic separation devices
Mogensen KB, Eriksson F, Gustafsson O, Nikolajsen RPH, Kutter JP |
| 3796 - 3804 |
High-power blue/UV light-emitting diodes as excitation sources for sensitive detection
Kuo JS, Kuyper CL, Allen PB, Fiorini GS, Chiu DT |
| 3805 - 3809 |
Noninvasive fluid flow measurements in microfluidic channels with backscatter interferometry
Markov DA, Dotson S, Wood S, Bornhop DJ |
| 3810 - 3819 |
Near-infrared time-resolved fluorescence lifetime determinations in poly(methylmethacrylate) microchip electrophoresis devices
Llopis SD, Stryjewski W, Soper SA |
| 3820 - 3824 |
Whole-column fluorescence-imaged capillary electrophoresis
Wu XZ, Pawliszyn J |
| 3825 - 3831 |
Microfluidic devices obtained by thermal toner transferring on glass substrate
do Lago CL, Neves CA, de Jesus DP, da Silva HDT, Brito-Neto JGA, da Silva JAF |
| 3832 - 3839 |
Electrophoresis microchip fabricated by a direct-printing process with end-channel amperometric detection
Coltro WKT, da Silva JAF, da Silva HDT, Richter EM, Furlan R, Angnes L, do Lago CL, Mazo LH, Carrilho E |
| 3840 - 3847 |
Photopolymerized microtips for sample preparation in proteomic analysis
Hsu JL, Chou MK, Liang SS, Huang SY, Wu CJ, Shi FK, Chen SH |
| 3848 - 3852 |
Subsecond chiral separations on a microchip
Piehl N, Ludwig M, Belder D |
| 3853 - 3859 |
Direct electrochemical detection of glucose in human plasma on capillary electrophoresis microchips
Du Y, Yan JL, Zhou WZ, Yang XY, Wang EK |
| 3860 - 3864 |
Semiquantitative determination of Alicyclobacillus acidoterrestris in orange juice by reverse-transcriptase polymerase chain reaction and capillary electrophoresis - laser induced fluorescence using microchip technology
Funes-Huacca M, Regitano LCD, Mueller O, Carrilho E |
| 3865 - 3874 |
Separation of proteins by zone electrophoresis on-line coupled with isotachophoresis on a column-coupling chip with conductivity detection
Olvecka E, Kaniansky D, Pollak B, Stanislawski B |
| 3875 - 3881 |
Performance of electrokinetic supercharging for high-sensitivity detection of DNA fragments in chip gel electrophoresis
Xu ZQ, Nishine T, Arai A, Hirokawa T |
| 3882 - 3889 |
Quantitative polymerase chain reaction and microchip electrophoresis to detect major rearrangements of the low-density lipoprotein receptor gene causing familial hypercholesterolemia
Cantafora A, Blotta I, Pino E, Pisciotta L, Calandra S, Bertolini S |
| 3890 - 3896 |
Development of a chip-based capillary gel electrophoresis method for quantification of a half-antibody in immunoglobulin G(4) samples
Vasilyeva E, Woodard J, Taylor FR, Kretschmer M, Fajardo H, Lyubarskaya Y, Kobayashi K, Dingley A, Mhatre R |
