about
Droplet control technologies for microfluidic high throughput screening (μHTS).Emergence of microfluidic wearable technologies.Tactic, reactive, and functional droplets outside of equilibrium.Miniaturization of aqueous two-phase extraction for biological applications: From micro-tubes to microchannels.Passive and active droplet generation with microfluidics: a review.Rapid, chemical-free breaking of microfluidic emulsions with a hand-held antistatic gun.Drop formation using ferrofluids driven magnetically in a step emulsification device.Controlled droplet discretization and manipulation using membrane displacement traps.On-chip polyelectrolyte coating onto magnetic droplets - towards continuous flow assembly of drug delivery capsules.Study of flow behaviors of droplet merging and splitting in microchannels using Micro-PIV measurement.AC electric field controlled non-Newtonian filament thinning and droplet formation on the microscale.Fast-responsive hydrogel as an injectable pump for rapid on-demand fluidic flow control.Noncontact and Nonintrusive Microwave-Microfluidic Flow Sensor for Energy and Biomedical Engineering.Electric generation and ratcheted transport of contact-charged drops.AC electric field induced droplet deformation in a microfluidic T-junction.Monitoring few molecular binding events in scalable confined aqueous compartments by raster image correlation spectroscopy (CADRICS).Computation of the pressure field generated by surface acoustic waves in microchannels.Microfluidic fabrication of microparticles for biomedical applicationsFabrication of All Glass Bifurcation Microfluidic Chip for Blood Plasma SeparationBiocompatible/Biodegradable Electrowetting on Dielectric Microfluidic Chips with Fluorinated CTA/PLGA
P2860
Q38669110-831BE219-8B95-40EB-9663-F8B4E1BB42F3Q38810346-BDC80A2C-DBB1-4C51-82E5-9FA778B038B8Q38854303-A43369D9-5651-4DC3-BDFA-C5F1386AAE38Q38953648-CD25E9B8-BC89-44F1-BF1E-C230B31542DBQ39007827-410BDC7F-44C4-478B-82A3-701F74145B3AQ41073529-1B6089C2-4474-4BB0-9AD9-168F391AFA0EQ46415462-C27B9FAD-BB38-4F5A-823F-65A7E4858288Q47589782-1BC727B8-CB5F-489B-9DE5-7F1728024E0DQ47656946-CA7244CD-2053-4533-85CC-522208FE368FQ47692277-D40E5261-8978-4053-AF84-EB049479BEB8Q47750977-F4F5C4E8-47DD-4360-A590-457537F55CF8Q47807022-03FFF4CC-2455-43CE-8B38-A8EDABAE948BQ49164361-7CEC27F7-5A2A-406D-9958-6C091152DCE9Q49958564-F403C0A0-3D6E-496B-8FE0-F35ED2A49C20Q51334183-C2D2FB03-5290-4E64-8A3E-A1AF01768D41Q51345366-7E555A21-7B4B-454A-A5E6-ED6A918B33F6Q51460280-CD6CBD76-2B47-475D-A709-198EDE313245Q57174101-63B4ED51-BF8C-481E-96AD-B0D576C2EE37Q57676597-046C07F0-437C-46FB-B034-55EF119571E6Q58804987-21F5CBD6-A5CE-4735-BECD-CAA7059CFE9D
P2860
description
2015 nî lūn-bûn
@nan
2015年の論文
@ja
2015年論文
@yue
2015年論文
@zh-hant
2015年論文
@zh-hk
2015年論文
@zh-mo
2015年論文
@zh-tw
2015年论文
@wuu
2015年论文
@zh
2015年论文
@zh-cn
name
Active droplet generation in microfluidics.
@en
type
label
Active droplet generation in microfluidics.
@en
prefLabel
Active droplet generation in microfluidics.
@en
P2093
P2860
P50
P356
P1433
P1476
Active droplet generation in microfluidics.
@en
P2093
Ngiap Hiang Loh
Shu Beng Tor
Zhuang Zhi Chong
P2860
P356
10.1039/C5LC01012H
P577
2015-11-11T00:00:00Z