| 237 - 237 |
Microfluidics and Miniaturization 2017
Foret F, Kutter J |
| 238 - 249 |
Hybrid microfluidics combined with active and passive approaches for continuous cell separation
Yan S, Zhang J, Yuan D, Li WH |
| 250 - 257 |
Simple, rapid and, cost-effective fabrication of PDMS electrophoresis microchips using poly(vinyl acetate) as photoresist master
Lobo EO, Gabriel EFM, dos Santos RA, de Souza FR, Lopes WD, Lima RS, Gobbi AL, Coltro WKT |
| 258 - 269 |
Enhanced model-based design of a high-throughput three dimensional micromixer driven by alternating-current electrothermal flow
Wu YP, Ren YK, Jiang HY |
| 270 - 277 |
Analysis of 3D multi-layer microfluidic gradient generator
Ha JH, Kim TH, Lee JM, Ahrberg CD, Chung BG |
| 278 - 286 |
Discrete electric field mediated droplet splitting in microchannels: Fission, Cascade, and Rayleigh modes
Chaudhuri J, Timung S, Dandamudi CB, Mandal TK, Bandyopadhyay D |
| 287 - 295 |
Fabrication and electrokinetic motion of electrically anisotropic Janus droplets in microchannels
Li MQ, Li DQ |
| 296 - 304 |
A poly(dimethylsiloxane) microfluidic sheet reversibly adhered on a glass plate for creation of emulsion droplets for droplet digital PCR
Nakashoji Y, Tanaka H, Tsukagoshi K, Hashimoto M |
| 305 - 310 |
Droplet size influences division of mammalian cell factories in droplet microfluidic cultivation
Rajeswari PKP, Joensson HN, Andersson-Svahn H |
| 311 - 319 |
Probing the response of lung tumor cells to inflammatory microvascular endothelial cells on fluidic microdevice
Xu H, Li ZY, Guo YQ, Peng XJ, Qin JH |
| 320 - 326 |
Charge-based separation of particles and cells with similar sizes via the wall-induced electrical lift
Thomas C, Lu XY, Todd A, Raval Y, Tzeng TR, Song YX, Wang JS, Li DQ, Xuan XC |
| 327 - 334 |
Microfluidic free-flow zone electrophoresis and isotachophoresis using carbon black nano-composite PDMS sidewall membranes
Fu XT, Mavrogiannis N, Ibo M, Crivellari F, Gagnon ZR |
| 335 - 341 |
A mobility shift assay for DNA detection using nanochannel gradient electrophoresis
Startsev MA, Ostrowski M, Goldys EM, Inglis DW |
| 342 - 349 |
Evaluation of protein separation mechanism and pore size distribution in colloidal self-assembled nanoparticle sieves for on-chip protein sizing
Azim M, Malekpourkoupaei A, Ye WM, Jemere AB, Harrison DJ |
| 350 - 360 |
Behavior of alpha-synuclein-drug complexes during nanopore analysis with a superimposed AC field
Jakova E, Lee JS |
| 361 - 367 |
Ultra-thin layer chromatography with integrated silver colloid-based SERS detection
Wallace RA, Lavrik NV, Sepaniak MJ |
| 368 - 371 |
A competitive luminol chemiluminescence immunosensor based on a microfluidic chip for the determination of ractopamine
Wang S, Chen QL, Wei X, Wu J, Wang CY, Liu JH, Zhang LY, Dong YY |
| 372 - 379 |
A hydrophobic ionic liquid compartmentalized sampling/labeling and its separation techniques in polydimethylsiloxane microchip capillary electrophoresis
Quan HH, Li M, Huang Y, Hahn JH |
| 380 - 386 |
On-line coupling of sample preconcentration by LVSEP with gel electrophoretic separation on T-channel chips
Kitagawa F, Kinami S, Takegawa Y, Nukatsuka I, Sueyoshi K, Kawai T, Otsuka K |
