| 377 - 377 |
Microfluidics and Miniaturization 2015
Foret F, Kutter JP |
| 378 - 385 |
Two-dimensional numerical modeling for separation of deformable cells using dielectrophoresis
Ye T, Li H, Lam KY |
| 386 - 392 |
Simulation-based design of a microfabricated pneumatic electrospray nebulizer
Jarvas G, Grym J, Foret F, Guttman A |
| 393 - 397 |
Application of a computational neural network to optimize the fluorescence signal from a receptor-ligand interaction on a microfluidic chip
Ortega M, Hanrahan G, Arceo M, Gomez FA |
| 398 - 404 |
Size-based cell sorting with a resistive pulse sensor and an electromagnetic pump in a microfluidic chip
Song YX, Li MQ, Pan XX, Wang Q, Li DQ |
| 405 - 412 |
A micromixer with consistent mixing performance for a wide range of flow rates
Goovaerts R, Van Assche T, Sonck M, Denayer J, Desmet G |
| 413 - 419 |
Multichannel lens-free CMOS sensors for real-time monitoring of cell growth
Chang KT, Chang YJ, Chen CL, Wang YN |
| 420 - 423 |
Dual characterization of biological cells by optofluidic microscope and resistive pulse sensor
Guo JH, Chen L, Huang XW, Li CM, Ai Y, Kang YJ |
| 424 - 427 |
Alternating current cloud point extraction on a microchip: The effect of electrode geometry
Sasaki N, Maekawa C, Sato K |
| 428 - 432 |
Shape-anchored porous polymer monoliths for integrated online solid-phase extraction-microchip electrophoresis-electrospray ionization mass spectrometry
Nordman N, Barrios-Lopez B, Lauren S, Suvanto P, Kotiaho T, Franssila S, Kostiainen R, Sikanen T |
| 433 - 440 |
Fundamentals on new capillaries inspired by photonic crystal fibers as optofluidic separation systems in CE
Calcerrada M, de la Ossa MAF, Roy P, Gonzalez-Herraez M, Garcia-Ruiz C |
| 441 - 448 |
Evaluation of in-channel amperometric detection using a dual-channel microchip electrophoresis device and a two-electrode potentiostat for reverse polarity separations
Meneses D, Gunasekara DB, Pichetsurnthorn P, da Silva JAF, de Abreu FC, Lunte SM |
| 449 - 456 |
Surface modification of PDMS microfluidic devices by controlled sulfuric acid treatment and the application in chip electrophoresis
Gitlin L, Schulze P, Ohla S, Bongard HJ, Belder D |
| 457 - 466 |
3D-printed chip for detection of methicillin-resistant Staphylococcus aureus labeled with gold nanoparticles
Chudobova D, Cihalova K, Skalickova S, Zitka J, Rodrigo MAM, Milosavljevic V, Hynek D, Kopel P, Vesely R, Adam V, Kizek R |
| 467 - 470 |
Nanopore back titration analysis of dipicolinic acid
Han YJ, Zhou S, Wang L, Guan XY |
| 471 - 474 |
Alternating current electrokinetics enhanced in situ capacitive immunoassay
Li SS, Ren YK, Cui HC, Yuan Q, Wu J, Eda S, Jiang HY |
| 475 - 484 |
Microfluidic platform with four orthogonal and overlapping gradients for soluble compound screening in regenerative medicine research
Harink B, Le Gac S, Barata D, van Blitterswijk C, Habibovic P |
| 485 - 487 |
Direct measurement of beta-agonists in swine hair extract in multiplexed mode by surface-enhanced Raman spectroscopy and microfluidic paper
Dou B, Luo Y, Chen X, Shi B, Du YG, Gao ZG, Zhao WJ, Lin BC |
