MEMSuniverse » Microfabrication

Time dependence of the fluid velocity field

admin — Tue, 02 Mar 2010 14:08:02 +0000

Video related to research article appearing in Lab on a Chip
O. Manneberg, et al. Flow-free transport of cells in microchannels
by frequency-modulated ultrasound
Read the article at http://xlink.rsc.org/?DOI=b816675g

The clip shows the time-dependence of the fluid velocity field, acquired by performing
time-resolved particle image velocimetry (PIV) on the yellow 1-μm beads in the clip
“Flow-free transport and caging of 5-μm beads”. Note that at 5-second intervals, e.g. around 12 and 17
seconds, the fluid velocity increases in the cage due to rapid movement of the caged
aggregate as the frequency jumps back to its lowest value. Additionally, the rapid
transport of aggregates in the inlet channel is also apparent at these times, with a leftward
flow in front of and behind the aggregate and a rightward flow over its sides, as it pushes
through the fluid. The velocity field has been numerically smoothed. The average
velocity field during the full clip is shown in Fig. 4c.
In the first, second and third clips, the chip was actuated by two transducers; one driven
in linear sweeps from 2.60 2.64 MHz at a rate of 0.5 Hz (first clip) or 0.2 Hz (second
and third clips), and the other driven from 6.90 7.00 MHz at a rate of 1 kHz.

Duration : 0:1:38

High-Throughput Design of Microfluidics Based on Directed Bacterial Motility

admin — Mon, 01 Mar 2010 15:19:06 +0000

Real-time DIC video showing rapid orbital revolution
(~3.0 Hz) of a microsphere driven by E. coli (RP9535) in a hybrid structure.

Jason Shear and Bryan Kaehr “High-Throughput Design of Microfluidics Based on Directed Bacterial Motility”
Read the article at: http://xlink.rsc.org/?doi=b908119d

Duration : 0:0:22

Freezing Pure Water

admin — Sat, 27 Feb 2010 15:07:09 +0000

Video related to research article appearing in Lab on a Chip
Claudiu A. Stan, et al. A microfluidic apparatus for the study of ice nucleation in supercooled water drops
Read the article at http://xlink.rsc.org/?DOI=b906198c

Duration : 0:0:22

Inkjet formation of unilamellar lipid vesicles for cell-like encapsulation

admin — Fri, 26 Feb 2010 18:01:03 +0000

Research article from Lab in a Chip, Jeanne C. Stachowiak et al.
Inkjet formation of unilamellar lipid vesicles for cell-like encapsulation
Read the article at
http://xlink.rsc.org/?DOI=B904984C

Duration : 0:0:13

Phototransistor-based optoelectronic tweezers for dynamic cell manipulation in cell culture media

admin — Thu, 25 Feb 2010 20:08:12 +0000

Video relates to research article in Lab on a chip

Hsan-yin Hsu et al. “Phototransistor-based optoelectronic tweezers for dynamic cell manipulation in cell culture media”

Read the article at http://xlink.rsc.org/?DOI=b906593h

Duration : 0:0:36

Flow free transport and caging of 5 μm beads

admin — Tue, 26 May 2009 22:02:49 +0000

The clip shows flow-free transport and caging of 5-μm beads (green). The yellow beads
are 1-μm tracer particles that are used for tracking the fluid motion. Due to the particlevolume
dependence of the acoustic forces, the smaller beads are not manipulated by
ultrasound at the employed actuation voltage (10 Vpp). Two frames from the clip are
shown in Figs. 4a-b.

Duration : 0:0:37

0 06ml per min each phase full chip view

admin — Sat, 16 May 2009 16:12:59 +0000

Video related to research article appearing in Lab on a Chip
Oliver K. Castell, et al. Liquidliquid phase separation: characterisation of a novel device capable of separating particle carrying multiphase flows

Read the article at http://xlink.rsc.org/?DOI=b806946h

Duration : 0:0:10

Visualisation of Human Whole Blood Pumping

admin — Tue, 12 May 2009 15:41:20 +0000

Video related to research from Lab on a Chip.
Article details: Sheng-Hung Chiu and Cheng-Hsien Liu “An air-bubble-actuated micropump for on-chip blood transportation”
Read the article at: http://xlink.rsc.org/?DOI=B900139E

Duration : 0:0:27

Nanofluidics

admin — Sun, 26 Apr 2009 01:05:17 +0000

3D simulation of cleanroom microfabrication. This process shows how to fabricate devices for nanofluidics experiments. (c) Nicolas Durand, 2009. … Nanofluidics nanotechnology microfabrication

Duration : 0:3:59

Droplet pairs in a confluence channel meet and fuse under interfacial tension

admin — Mon, 06 Apr 2009 01:32:16 +0000

Video related to research article appearing in Lab on a Chip “Microvalve-actuated precise control of individual droplets in microfluidic devices” Shaojiang Zeng, Bowei Li, Xiaoou Su, Jianhua Qin and Bingcheng Lin Read the article at: http://xlink.rsc.org/?DOI=b821803j

Duration : 0:0:14

MEMSuniverse » Microfabrication

Time dependence of the fluid velocity field

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