| 4509 - 4509 |
Miniaturization 2007 issue
Foret F, Kutter JR |
| 4511 - 4520 |
Recent advances in miniaturized microfluidic flow cytometry for clinical use
Chung TD, Kim HC |
| 4521 - 4538 |
Dielectrophoresis for the manipulation of nanobioparticles
Lapizco-Encinas BH, Rito-Palomares M |
| 4539 - 4551 |
SU-8 as a structural material for labs-on-chips and microelectromechanical systems
Abgrall P, Conedera V, Camon H, Gue AM, Nguyen NT |
| 4552 - 4560 |
Transport of charged samples in fluidic channels with large zeta potentials
Dutta D |
| 4561 - 4571 |
Turn-induced isotachophoretic focusing in microfluidic channels
Paschkewitz JS, Molho JI, Xu H, Bharadwaj R, Park CC |
| 4572 - 4581 |
Electrodeless direct current dielectrophoresis reconfigurable field-shaping oil barriers using
Thwar PK, Linderman JJ, Burns MA |
| 4582 - 4589 |
Channel wall coating on a poly-(methyl methacrylate) CE microchip by thermal immobilization of a cellulose derivative for size-based protein separation
Okada H, Kaji N, Tokeshi M, Baba Y |
| 4590 - 4596 |
Property of ionic liquid in electrophoresis and its application in chiral separation on microchips
Zeng HL, Shen H, Nakagama T, Uchiyama K |
| 4597 - 4605 |
Ionic liquid-assisted PDMS microchannel modification for efficiently resolving fluorescent dye and protein adsorption
Xu YH, Jiang H, Wang EK |
| 4606 - 4611 |
Temperature gradient focusing in a PDMS/glass hybrid microfluidic chip
Matsui T, Franzke J, Manz A, Janasek D |
| 4612 - 4619 |
Detection in on-column conductivity capillary-chip electrophoresis
Wu ZY, Fang F, Josserand J, Girault HH |
| 4620 - 4628 |
Floating resistivity detector for microchip electrophoresis
Tay ETT, Law WS, Sim SPC, Feng H, Zhao JH, Li SFY |
| 4629 - 4637 |
Comparative study of floating and dynamic injection modes in electrokinetic separative microsystems
Blas M, Delaunay N, Rocca JL |
| 4638 - 4644 |
Spatially addressable protein array: ssDNA-directed assembly for antibody microarray
Ng JK, Ajikumar PK, Tang YC, Lee JY, Stephanopoulos G, Too HP |
| 4645 - 4660 |
Microfluidic platform with mass spectrometry detection for the analysis of phosphoproteins
Dawoud AA, Sarvalyal HA, Lazar IM |
| 4661 - 4667 |
Design, simulation, and optimization of a miniaturized device for size-fractioned DNA extraction
Li G, Ran R, Zhao JL, Xu YS |
| 4668 - 4678 |
Detection of single-base mutations using 1-D microfluidic beads array
Zhang H, Yang X, Wang K, Tan W, Zhou L, Zuo X, Wen J, Chen Y |
| 4679 - 4689 |
Electroactive intercalators for DNA analysis on microchip electrophoresis
Castano-Alvarez M, Fernandez-Abedul M, Costa-Garcia A |
| 4690 - 4696 |
Monitoring of enzymatic reactions using conventional and on-chip capillary electrophoresis with contactless conductivity detection
Schuchert-Shi A, Kuban P, Hauser PC |
| 4697 - 4704 |
Bacterial characterization using protein profiling in a microchi separations platform
Pizarro SA, Lane P, Lane TW, Cruz E, Haroldsen B, VanderNoot VA |
| 4705 - 4712 |
A microfluidic device for parallel 3-D cell cultures in asymmetric environments
Frisk T, Rydholm S, Liebmann T, Svahn HA, Stemme G, Brismar H |
| 4713 - 4722 |
A micropillar-integrated smart microfluidic device for specific capture and sorting of cells
Liu YJ, Guo SS, Zhang ZL, Huang WH, Baigl D, Xie M, Chen Y, Pang DW |
| 4723 - 4733 |
Real-time monitoring of intracellular calcium dynamic mobilization of a single cardiomyocyte in a microfluidic chip pertaining to drug discovery
Li X, Huang J, Tibbits GF, Li PCH |
| 4734 - 4740 |
Electrophoresis on a microfluidic chip for analysis of fluorescence-labeled human rhinovirus
Kolivoska V, Weiss VU, Kremser L, Gas B, Blaas D, Kenndler E |
| 4741 - 4747 |
Microfluidic chip-based cell electrophoresis with multipoint laser-induced fluorescence detection system
Yu LF, Shen Z, Mo JK, Dong XL, Qin JH, Lin BC |
| 4748 - 4757 |
Microfluidic cell disruption system employing a magnetically actuated diaphragm
Huh YS, Choi JH, Park TJ, Hong YK, Hong WH, Lee SY |
| 4758 - 4764 |
A simplified method for capillary embedment into microfluidic devices -exemplified by sol-gel-based preconcentration
Thorslund S, Johannesson N, Nikolajeff F, Bergquist J |
| 4765 - 4768 |
Faster and improved microchip electrophoresis using a capillary bundle
Sun Y, Kwok YC, Nguyen NT |
| 4769 - 4771 |
Further improvement of hydrostatic pressure sample injection for microchip electrophoresis
Luo Y, Zhang QQ, Qin JH, Lin BC |
