| 4875 - 4875 |
Miniaturization 2006 issue
Foret F, Kutter JP |
| 4877 - 4887 |
Microfluidics for multiplexed MS analysis
Foret F, Kusy P |
| 4888 - 4895 |
Sacrificial layer microfluidic device fabrication methods
Peeni BA, Lee ML, Hawkins AR, Woolley AT |
| 4896 - 4903 |
Genotyping with microfluidic devices
Szantai E, Guttman A |
| 4904 - 4909 |
Integrated isotachophoretic reconcentration with zone electrophoresis separation on a quartz microchip for UV detection of flavonoids
Ma B, Zhou XM, Wang G, Huang HQ, Dai ZP, Qin JH, Lin BC |
| 4910 - 4918 |
Poly(methyl methacrylate) CE microchips replicated from poly(dimethylsiloxane) templates for the determination of cations
Qu S, Chen XH, Chen D, Yang PY, Chen G |
| 4919 - 4926 |
Floating electrode dielectrophoresis
Golan S, Elata D, Orenstein M, Dinnar U |
| 4927 - 4934 |
Integration of nanoporous membranes for sample filtration/preconcentration in microchip electrophoresis
Long ZC, Liu DY, Ye NN, Qin JH, Lin BC |
| 4935 - 4942 |
Microchip free-flow electrophoresis on glass substrate using laser-printing toner as structural material
de Jesus DP, Blanes L, do Lago CL |
| 4943 - 4951 |
Patterning microbeads inside poly(dimethylsiloxane) microfluidic channels and its application for immobilized microfluidic enzyme reactors
Zhang Q, Xu JJ, Chen HY |
| 4952 - 4959 |
Atmospheric molding of ionic copolymer MALDI-TOF/MS arrays: A new tool for protein identification/profiling
Muck A, Ibanez AJ, Stauber EJ, Mansourova M, Svatos A |
| 4960 - 4969 |
Micro free-flow IEF enhanced by active cooling and functionalized gels
Albrecht JW, Jensen KF |
| 4970 - 4981 |
Improvements on the electrokinetic injection technique for microfluidic chips
Wu CH, Yang RJ |
| 4982 - 4990 |
Micromixer utilizing electrokinetic instability-induced shedding effect
Tai CH, Yang RJ, Huang MZ, Liu CW, Tsai CH, Fu LM |
| 4991 - 4998 |
Experimental and numerical investigation into leakage effect in injectors of microfluidic devices
Tsai CH, Wang YN, Lin CF, Yang RJ, Fu LM |
| 4999 - 5008 |
Ionic dispersion in nanofluidics
De Leebeeck A, Sinton D |
| 5009 - 5019 |
Numerical analysis of an electrokinetic double-focusing injection technique for microchip CE
Zhuang GS, Li G, Jin QH, Zhao JL, Yang MS |
| 5020 - 5031 |
Electrokinetic transport of charged solutes in micro- and nanochannels: The influence of transverse electromigration
Xuan XC, Li DQ |
| 5032 - 5042 |
Use of micromolded carbon dual electrodes with a palladium decoupler for amperometric detection in microchip electrophoresis
Mecker LC, Martin RS |
| 5043 - 5050 |
Fabrication and characterization of semicircular detection electrodes for contactless conductivity detector - CE microchips
Lee CY, Chen CM, Chang GL, Lin CH, Fu LM |
| 5051 - 5058 |
Towards a portable microchip system with integrated thermal control and polymer waveguides for real-time PCR
Wang ZY, Sekulovic A, Kutter JP, Bang DD, Wolff A |
| 5059 - 5067 |
A sheath-flow nanoelectrospray interface of microchip electrophoresis MS for glycoprotein and glycopeptide analysis
Mao XL, Chu IK, Lin BC |
| 5068 - 5072 |
Microchip electrophoresis with wall-jet electrochemical detector: Influence of detection potential upon resolution of solutes
Pumera M, Merkoci A, Alegret S |
| 5073 - 5080 |
Viability study of HL60 cells in contact with commonly used microchip materials
Wolbers F, ter Braak P, Le Gac S, Luttge R, Andersson H, Vermes I, van den Berg A |
| 5081 - 5092 |
Dielectrophoresis microsystem with integrated flow cytometers for on-line monitoring of sorting efficiency
Wang ZY, Hansen O, Petersen PK, Rogeberg A, Kutter JP, Bang DD, Wolff A |
| 5093 - 5100 |
A microfluidic-based system for analysis of single cells based on Ca2+ flux
Zhang XL, Yin HB, Cooper JM, Haswell SJ |
| 5101 - 5109 |
Usefulness of microchip electrophoresis for the analysis of mitochondrial DNA in forensic and ancient DNA studies
Alonso A, Albarran C, Martin P, Garcia P, Capilla J, Garcia O, de la Rua C, Izaguirre N, Pereira F, Pereira L, Amorim A, Sancho M |
| 5110 - 5118 |
A fast and reliable route integrating calibration and analysis protocols for water-soluble vitamin determination on microchip-electrochemistry platforms
Crevillen AG, Blasco AJ, Gonzalez MC, Escarpa A |
| 5119 - 5127 |
Application of microchip-CE electrophoresis to follow the degradation of phenolic acids by aquatic plants
Ding YS, Garcia CD |
| 5128 - 5131 |
Studying drug-plasma protein interactions by two-injector microchip electrophoresis frontal analysis
Liu XJ, Liang AY, Shen Z, Liu X, Zhang Y, Dai ZP, Xiong BH, Lin BC |
| 5132 - 5137 |
EOF measurement by detection of a sampling zone with end-channel amperometry in microchip CE
Wang W, Zhao L, Jiang LP, Zhang JR, Zhu JJ, Chen HY |
