| 4807 - 4807 |
Miniaturization
Foret F, Kutter JP |
| 4808 - 4812 |
Dielectrophoretic detection and quantification of hybridized DNA molecules on nano-genetic particles
Gagnon Z, Senapati S, Gordon J, Chang HC |
| 4813 - 4851 |
Light at work: The use of optical forces for particle manipulation, sorting, and analysis
Jonas A, Zemanek P |
| 4852 - 4861 |
Microchips for CE: Breakthroughs in real-world food analysis
Escarpa A, Gonzalez MC, Gil MAL, Crevillen AG, Hervas M, Garcia M |
| 4862 - 4870 |
A nanochannel-based concentrator utilizing the concentration polarization effect
Huang KD, Yang RJ |
| 4871 - 4879 |
Electrokinetic instability effects in microchannels with and without nanofilm coatings
Fu LM, Hong TF, Wen CY, Tsai CH, Lin CH |
| 4880 - 4886 |
Realistic simulations of combined DNA electrophoretic flow and EOF in nano-fluidic devices
Duong-Hong D, Han J, Wang JS, Hadjiconstantinou NG, Chen YZ, Liu GR |
| 4887 - 4893 |
Forced splitting of fractions in CE
Zalewski DR, Schlautmann S, Gardeniers HJGE |
| 4894 - 4899 |
Impact of laser excitation intensity on deep UV fluorescence detection in microchip electrophoresis
Schulze P, Ludwig M, Belder D |
| 4900 - 4905 |
A novel, environmentally friendly sodium lauryl ether sulfate-, cocamidopropyl betaine-, cocamide monoethanolamine-containing buffer for MEKC on microfluidic devices
Hoeman KW, Culbertson CT |
| 4906 - 4913 |
Micropumps actuated negative pressure injection for microchip electrophoresis
Li BW, Jiang L, Wang Q, Oin JH, Lin BC |
| 4914 - 4921 |
Lab-on-a-robot: Integrated microchip CE, power supply, electrochemical detector, wireless unit, and mobile platform
Berg C, Valdez DC, Bergeron P, Mora MF, Garcia CD, Ayon A |
| 4922 - 4927 |
Fabrication of PMMA CE microchips by infrared-assisted polymerization
Chen Y, Duan HT, Zhang LY, Chen G |
| 4928 - 4937 |
Comparison of the analytical performance of electrophoresis microchannels fabricated in PDMS, glass, and polyester-toner
Coltro WKT, Lunte SM, Carrilho E |
| 4938 - 4943 |
Chip-CE/MS using a flat low-sheath-flow interface
Li FA, Huang JL, Her GR |
| 4944 - 4947 |
On-chip tryptic digest with direct coupling to ESI-MS using magnetic particles
Le Nel A, Krenkova J, Kleparnik K, Smadja C, Taverna M, Viovy JL, Foret F |
| 4948 - 4955 |
Development of an acrylate monolith in a cyclo-olefin copolymer microfluidic device for chip electrochromatography separation
Faure K, Albert M, Dugas V, Cretier G, Ferrigno R, Morin P, Rocca JL |
| 4956 - 4963 |
Microfluidic device for integrated restriction digestion reaction and resulting DNA fragment analysis
Xie H, Li BW, Zhong RT, Qin JH, Zhu YS, Lin BC |
| 4964 - 4971 |
Miniaturized electrochemical detector as a tool for detection of DNA amplified by PCR
Huska D, Hubalek J, Adam V, Kizek R |
| 4972 - 4975 |
Dual-color microchip electrophoresis with single-photon avalanche diodes: Application to mutation detection
Stenirri S, Cretich M, Rech I, Restelli A, Ghioni M, Cova S, Ferrari M, Cremonesi L, Chiari M |
| 4976 - 4983 |
A simple and sensitive transient ITP method for on-chip analysis of PCR samples
Wang LH, Liu DY, Chen H, Zhou XM |
| 4984 - 4992 |
Generating high peak capacity 2-D maps of complex proteomes using PMMA microchip electrophoresis
Osiri JK, Shadpour H, Park S, Snowden BC, Chen ZY, Soper SA |
| 4993 - 5002 |
Microchip assays for screening monoclonal antibody product quality
Chen XY, Tang KY, Lee M, Flynn GC |
| 5003 - 5009 |
Rapid chip-based capillary electrophoretic mobility shift assay with negative pressure injection for the binding study of transcription factor Abf1 in Saccharomyces cerevisiae
Yang Q, Zhao YC, Xiong Q, Cheng J |
| 5010 - 5016 |
Internally calibrated quantification of protein analytes in human serum by fluorescence immunoassays in disposable elastomeric microfluidic devices
Kartalov EP, Lin DH, Lee DT, Anderson WF, Taylor CR, Scherer A |
| 5017 - 5025 |
Electrohydrodynamic-mediated dielectrophoretic separation and transport based on asymmetric electrode pairs
Du E, Manoochehri S |
| 5026 - 5032 |
Manipulation of self-assembly amyloid peptide nanotubes by dielectrophoresis
Castillo J, Tanzi S, Dimaki M, Svendsen W |
| 5033 - 5046 |
Dielectrophoretic characterization of erythrocytes: Positive ABO blood types
Srivastava SK, Daggolu PR, Burgess SC, Minerick AR |
| 5047 - 5054 |
Dielectrophoretic capture of mammalian cells using transparent indium tin oxide electrodes in microfluidic systems
Sankaran B, Racic M, Tona A, Rao MV, Gaitan M, Forry SP |
| 5055 - 5060 |
Simple, fast and high-throughput single-cell analysis on PDMS microfluidic chips
Yu LF, Huang HQ, Dong XL, Wu DP, Qin JH, Lin BC |
