| 4165 - 4165 |
Miniaturization
Foret F, Kutter JP |
| 4166 - 4171 |
A microwell array device with integrated microfluidic components for enhanced single-cell analysis
Lindstrom S, Mori K, Ohashi T, Andersson-Svahn H |
| 4172 - 4178 |
Electrophoresis microchip with integrated waveguides for simultaneous native UV fluorescence and absorbance detection
Ohlsson PD, Ordeig O, Mogensen KB, Kutter JP |
| 4179 - 4186 |
Rapid magnetic microfluidic mixer utilizing AC electromagnetic field
Wen CY, Yeh CP, Tsai CH, Fu LM |
| 4187 - 4194 |
Continuous fractionation of a two-component mixture by zone electrophoresis
Zalewski DR, Gardeniers HJGE |
| 4195 - 4205 |
DNA manipulation by means of insulator-based dielectrophoresis employing direct current electric fields
Gallo-Villanueva RC, Rodriguez-Lopez CE, Diaz-De-La-Garza RI, Reyes-Betanzo C, Lapizco-Encinas BH |
| 4206 - 4212 |
Temperature gradient focusing in miniaturized free-flow electrophoresis devices
Becker M, Mansouri A, Beilein C, Janasek D |
| 4213 - 4218 |
Pump-free and low-cost negative pressure sampling device for rapid sample loading in MCE
Hu HM, Yin XF, Qi LY, Liu JH |
| 4219 - 4224 |
Dry film microchips for miniaturised separations
Guijt RM, Candish E, Breadmore MC |
| 4225 - 4229 |
Fabrication of PMMA microfluidic chips using disposable agar hydrogel templates
Yao X, Chen Z, Chen G |
| 4230 - 4236 |
Polymer microchip CE of proteins either off- or on-chip labeled with chameleon dye for simplified analysis
Yu M, Wang HY, Woolley AT |
| 4237 - 4244 |
Capillary electrochromatography with packed bead beds in microfluidic devices
Jemere AB, Martinez D, Finot M, Harrison DJ |
| 4245 - 4250 |
Comparing polyelectrolyte multilayer-coated PMMA microfluidic devices and glass microchips for electrophoretic separations
Currie CA, Shim JS, Lee SH, Ahn C, Limbach PA, Halsall HB, Heineman WR |
| 4251 - 4255 |
Graft linker immobilization for spatial control of protein immobilization inside fused microchips
Shirai K, Renberg B, Sato K, Mawatari K, Konno T, Ishihara K, Kitamori T |
| 4256 - 4263 |
Evaluation of microchip material and surface treatment options for IEF of allergenic milk proteins on microchips
Poitevin M, Shakalisava Y, Miserere S, Peltre G, Viovy JL, Descroix S |
| 4264 - 4269 |
Microchip CGE linked to immunoprecipitation as an alternative to Western blotting
Wenz C, Rufer A |
| 4270 - 4276 |
Rapid discrimination of single-nucleotide mismatches based on reciprocating flow on a compact disc microfluidic device
Li CY, Li HJ, Qin JH, Lin BC |
| 4277 - 4284 |
High-fidelity fractionation of ssDNA fragments differing in size by one-base on a spiral-channel electrophoretic chip
Sun K, Suzuki N, Li ZY, Araki R, Ueno K, Juodkazis S, Abe M, Noji S, Misawa H |
| 4285 - 4291 |
A microfluidic device for characterizing the invasion of cancer cells in 3-D matrix
Liu TJ, Li CY, Li HJ, Zeng SJ, Qin JH, Lin BC |
| 4292 - 4299 |
Chip electrophoretic characterization of liposomes with biological lipid composition: Coming closer to a model for viral infection
Bilek G, Weiss VU, Pickl-Herk A, Blaas D, Kenndler E |
| 4300 - 4305 |
On-chip coupling of free-solution transient ITP and CGE for highly efficient separation of dsDNA with variable sample loading amounts
Liu DY, Chen B, Wang LH, Zhou XM |
