| 3621 - 3621 |
Miniaturization 2010
Foret F, Kutter JP |
| 3622 - 3633 |
Electrothermal flow effects in insulating (electrodeless) dielectrophoresis systems
Hawkins BG, Kirby BJ |
| 3634 - 3641 |
Characterization of particle capture in a sawtooth patterned insulating electrokinetic microfluidic device
Staton SJR, Chen KP, Taylor TJ, Pacheco JR, Hayes MA |
| 3642 - 3649 |
Analysis of carbonaceous biomarkers with the Mars Organic Analyzer microchip capillary electrophoresis system: Aldehydes and ketones
Stockton AM, Tjin CC, Huang GL, Benhabib M, Chiesl TN, Mathies RA |
| 3650 - 3657 |
Step width, spacing, and resolution in gradient elution moving boundary electrophoresis. Part 1. Theory and comparison with zone electrophoresis
Ross D |
| 3658 - 3664 |
Step width, spacing, and resolution in gradient elution moving boundary electrophoresis. Part 2. Results from experiment
Ross D |
| 3665 - 3674 |
Study on the influence of cross-sectional area and zeta potential on separation for hybrid-chip-based capillary electrophoresis using 3-D simulations
Wu ZQ, Cao XD, Chen L, Zhang JR, Xia XH, Fang Q, Chen HY |
| 3675 - 3680 |
Collision of a long DNA molecule with an isolated nanowire
Araki N, Aydil ES, Dorfman KD |
| 3681 - 3690 |
Novel shape and placement definitions with retention modeling for solid microfabricated pillar columns for CEC and HPLC
Sukas S, Desmet G, Gardeniers HJGE |
| 3691 - 3695 |
Free-solution interaction assay of carbonic anhydrase to its inhibitors using back-scattering interferometry
Morcos EF, Kussrow A, Enders C, Bornhop D |
| 3696 - 3702 |
Microchip electroseparation of proteins using lipid-based nanoparticles
Ohlsson P, Ordeig O, Nilsson C, Harwigsson I, Kutter JP, Nilsson S |
| 3703 - 3710 |
Multifunctional protein processing chip with integrated digestion, solid-phase extraction, separation and electrospray
Wang C, Jemere AB, Harrison DJ |
| 3711 - 3718 |
Manipulating particles in microfluidics by floating electrodes
Yalcin SE, Sharma A, Qian SZ, Joo SW, Baysal O |
| 3719 - 3726 |
Pneumatic handling of droplets on-demand on a microfluidic device for seamless processing of reaction and electrophoretic separation
Kaneda S, Ono K, Fukuba T, Nojima T, Yamamoto T, Fujii T |
| 3727 - 3736 |
A new gravity-driven microfluidic-based electrochemical assay coupled to magnetic beads for nucleic acid detection
Laschi S, Miranda-Castro R, Gonzalez-Fernandez E, Palchetti I, Reymond F, Rossier JS, Marrazza G |
| 3737 - 3744 |
White LEDs as broad spectrum light sources for spectrophotometry: Demonstration in the visible spectrum range in a diode-array spectrophotometric detector
Piasecki T, Breadmore MC, Macka M |
| 3745 - 3753 |
Feasibility of SU-8-based capillary electrophoresis-electrospray ionization mass spectrometry microfluidic chips for the analysis of human cell lysates
Nordman N, Sikanen T, Aura S, Tuomikoski S, Vuorensola K, Kotiaho T, Franssila S, Kostiainen R |
| 3754 - 3762 |
Electrophoretically deposited polyaniline nanotubes based film for cholesterol detection
Dhand C, Solanki PR, Pandey MK, Datta M, Malhotra BD |
| 3763 - 3770 |
Analysis of chemoresistance in lung cancer with a simple microfluidic device
Zhang LC, Wang JR, Zhao L, Meng QA, Wang Q |
| 3771 - 3774 |
Application of microchip CGE for the analysis of PEG-modified recombinant human granulocyte-colony stimulating factors
Park EJ, Lee KS, Lee KC, Na DH |
| 3775 - 3782 |
Determination of the potassium content of explosive residues using miniaturised isotachophoresis
Prest JE, Beardah MS, Baldock SJ, Doyle SP, Fielden PR, Goddard NJ, Brown BJT |
| 3783 - 3786 |
Chip-based CE for rapid separation of 8-aminopyrene-1,3,6-trisulfonic acid (APTS) derivatized glycans
Smejkal P, Szekrenyes A, Ryvolova M, Foret F, Guttman A, Bek F, Macka M |
