| 391 - 391 |
Microfluidics and Miniaturization 2016
Foret F, Kutter JP |
| 392 - 397 |
Metal nano-film resistivity chemical sensor
Podesva P, Foret F |
| 398 - 405 |
Application of capacitively coupled contactless conductivity as an external detector for zone electrophoresis in poly(dimethylsiloxane) chips
Koczka PI, Bodoki E, Gaspar A |
| 406 - 413 |
Light emitting diode, photodiode-based fluorescence detection system for DNA analysis with microchip electrophoresis
Hall GH, Glerum DM, Backhouse CJ |
| 414 - 417 |
Self-aligning subatmospheric hybrid liquid junction electrospray interface for capillary electrophoresis
Krenkova J, Kleparnik K, Grym J, Luksch J, Foret F |
| 418 - 424 |
Manual-slide-engaged paper chip for parallel SERS-immunoassay measurement of clenbuterol from swine hair
Zheng TT, Gao ZG, Luo Y, Liu XM, Zhao WJ, Lin BC |
| 425 - 431 |
Evaluation of biological activity of quantum dots in a microsystem
Grabowska-Jadach I, Haczyk M, Drozd M, Fischer A, Pietrzak M, Malinowska E, Brzozka Z |
| 432 - 437 |
Enhanced detection of quantum dots labeled protein by simultaneous bismuth electrodeposition into microfluidic channel
Medina-Sanchez M, Miserere S, Cadevall M, Merkoci A |
| 438 - 443 |
Online probing quantum dots and engineered enzyme self-assembly in a nanoliter scale
Wang JH, Li JC, Wang JP, Wang CL, Teng TW, Chen Y, Li JP, Dong BY, Qiu L, Jiang P |
| 444 - 454 |
Bioconjugation of peptides using advanced nanomaterials to examine their interactions in 3D printed flow-through device
Michalek P, Richtera L, Krejcova L, Nejdl L, Kensova R, Zitka J, Kopel P, Heger Z, Adam V, Kizek R |
| 455 - 462 |
Electrokinetic sample preconcentration and hydrodynamic sample injection for microchip electrophoresis using a pneumatic microvalve
Cong YZ, Katipamula S, Geng T, Prost SA, Tang KQ, Kelly RT |
| 463 - 471 |
In-line sample concentration by evaporation through porous hollow fibers and micromachined membranes embedded in microfluidic devices
Zhang HN, Tiggelaar RM, Schlautmann S, Bart J, Gardeniers H |
| 472 - 475 |
Digital microfluidics platform for interfacing solid-liquid extraction column with portable capillary electropherograph for analysis of soil amino acids
Gorbatsova J, Jaanus M, Vaher M, Kaljurand M |
| 476 - 481 |
Sample injection and electrophoretic separation on a simple laminated paper based analytical device
Xu CX, Zhong MH, Cai LF, Zheng QY, Zhang XJ |
| 482 - 492 |
Electroosmotic flow through a microparallel channel with 3D wall roughness
Chang L, Jian YJ, Buren M, Sun YJ |
| 493 - 497 |
Far infrared-assisted encapsulation of filter paper strips in poly(methyl methacrylate) for proteolysis
Chen QW, Bao HM, Zhang LY, Chen G |
| 498 - 503 |
Tilted pillar array fabrication by the combination of proton beam writing and soft lithography for microfluidic cell capture: Part 1 Design and feasibility
Rajta I, Huszank R, Szabo ATT, Nagy GUL, Szilasi S, Furjes P, Holczer E, Fekete Z, Jarvas G, Szigeti M, Hajba L, Bodnar J, Guttman A |
| 504 - 510 |
An improved alkaline direct formate paper microfluidic fuel cell
Galvan V, Domalaon K, Tang C, Sotez S, Mendez A, Jalali-Heravi M, Purohit K, Pham L, Haan J, Gomez FA |
| 511 - 518 |
Discriminating dengue-infected hepatic cells (WRL-68) using dielectrophoresis
Yafouz B, Kadri NA, Rothan HA, Yusof R, Ibrahim F |
| 519 - 528 |
Dielectrophoretic behavior of PEGylated RNase A inside a microchannel with diamond-shaped insulating posts
Mata-Gomez MA, Gallo-Villanueva RC, Gonzalez-Valdez J, Martinez-Chapa SO, Rito-Palomares M |
| 529 - 535 |
Protein immobilization on the surface of polydimethylsiloxane and polymethyl methacrylate microfluidic devices
Khnouf R, Karasneh D, Albiss BA |
| 536 - 544 |
Adhesion of MRC-5 and A549 cells on poly(dimethylsiloxane) surface modified by proteins
Zuchowska A, Kwiatkowski P, Jastrzebska E, Chudy M, Dybko A, Brzozka Z |
| 545 - 552 |
On-chip quantitative PCR using integrated real-time detection by capillary electrophoresis
Liu Y, Li C, Li Z, Chan SD, Eto D, Wu WR, Zhang JP, Chien RL, Wada HG, Greenstein M, Satomura S |
