| 2929 - 2929 |
Emphasis on microfluidics and miniaturization
El Rassi Z |
| 2931 - 2938 |
Nanofluidic system for the studies of single DNA molecules
Kuo CW, Wei KH, Lin CH, Shiu JY, Chen PL |
| 2939 - 2944 |
Microfluidic electroporation for selective release of intracellular molecules at the single-cell level
Bao N, Wang J, Lu C |
| 2945 - 2952 |
Isoelectric focusing in an ordered micropillar array
Dauriac V, Descroix S, Chen Y, Peltre G, Senechal H |
| 2953 - 2959 |
Experimental determination of sample stream focusing with fluorescent dye
Taylor J, Stubley GD, Ren CL |
| 2960 - 2969 |
Development of a fully integrated microfluidic system for sensing infectious viral disease
Huh YS, Park TJ, Lee EZ, Hong WH, Lee SY |
| 2970 - 2979 |
Starting electroosmotic flow in an annulus and in a rectangular channel
Chang CC, Wang CY |
| 2980 - 2986 |
Confinement effects on the morphology of photopatterned porous polymer monoliths for capillary and microchip electrophoresis of proteins
He M, Zeng Y, Sun XJ, Harrison DJ |
| 2987 - 2996 |
Accumulation and filtering of nanoparticles in microchannels using electrohydrodynamically induced vortical flows
Felten M, Staroske W, Jaeger MS, Schwille P, Duschl C |
| 2997 - 3004 |
Carbon nanotube disposable detectors in microchip capillary electrophoresis for water-soluble vitamin determination: Analytical possibilities in pharmaceutical quality control
Crevillen AG, Pumera M, Gonzalez MC, Escarpa A |
| 3005 - 3012 |
Single-cell gel electrophoresis (the comet assay): Loops or fragments?
Shaposhnikov SA, Salenko VB, Brunborg G, Nygren J, Collins AR |
| 3013 - 3023 |
Influence of polyelectrolyte coating conditions on capillary coating stability and separation efficiency in capillary electrophoresis
Nehme R, Perrin C, Cottet H, Blanchin MD, Fabre H |
| 3024 - 3031 |
Enrichment and separation of acidic and basic proteins using the centrifugal ultrafiltration followed by nanoparticle-filled capillary electrophoresis
Lin CY, Liu CH, Chang HC, Tseng WL |
| 3032 - 3037 |
Indirect photometric detection of anions in nonaqueous capillary electrophoresis employing Orange G as probe and a light-emitting diode-based detector
Heras GAB, Breadmore MC, Johns C, Hutchinson JP, Hilder EF, Lopez-Mahia P, Haddad PR |
| 3038 - 3046 |
Study of protein binding and micellar partition of highly hydrophobic molecules in a single system using capillary electrophoresis
Liu SF, Wang HL, Song MY, Yin JF, Jiang GB |
| 3047 - 3054 |
Evaluation of confidence and reproducibility in quantitative proteomics performed by a capillary isoelectric focusing-based proteomic platform coupled with a spectral counting approach
Balgley BM, Wang WJ, Song T, Fang XP, Yang L, Lee CS |
| 3055 - 3059 |
Fasting status as a consideration for human serum collection and preparation prior to depletion and analysis
Byrne JC, Downes MR, O'Donoghue N, Fitzpatrick JM, Dunn MJ, Watson RWG |
| 3060 - 3068 |
Rapid characterization of fatty alcohol ethoxylates by nonaqueous capillary electrophoresis
Arias M, Bauza R, Rodriguez J, Castaneda G, Rios A |
| 3069 - 3073 |
Intracellular adenosine 5'-triphosphate, adenosine 5'-diphosphate, and adenosine 5'-monophosphate detection by short-end injection capillary electrophoresis using methylcellulose as the effective electroosmostic flow suppressor
Zinellu A, Sotgia S, Pasciu V, Madeddu M, Leoni GG, Naitana S, Deiana L, Carru C |
| 3074 - 3080 |
Combination of solid-phase extraction and large-volume stacking with polarity switching in micellar electrokinetic capillary chromatography for the determination of traces of nonsteroidal anti-inflammatory drugs in saliva
Almeda S, Arce L, Valcarcel M |
| 3081 - 3089 |
High-sensitivity capillary electrophoresis for speciation of organomercury in biological samples using hollow fiber-based liquid-liquid-liquid microextraction combined with on-line preconcentration by large-volume sample stacking
Li PJ, Duan J, Hu B |
