MEMSuniverse » single http://www.memsuniverse.com A Passion for Creativity & Innovation Tue, 23 Oct 2012 21:57:22 +0000 en-US hourly 1 http://wordpress.org/?v=3.4.2 High-Throughput Design of Microfluidics Based on Directed Bacterial Motility http://www.memsuniverse.com/lab-on-chip/high-throughput-design-of-microfluidics-based-on-directed-bacterial-motility.html http://www.memsuniverse.com/lab-on-chip/high-throughput-design-of-microfluidics-based-on-directed-bacterial-motility.html#comments Mon, 01 Mar 2010 15:19:06 +0000 admin http://www.memsuniverse.com/?p=2330 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


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]]> http://www.memsuniverse.com/lab-on-chip/high-throughput-design-of-microfluidics-based-on-directed-bacterial-motility.html/feed 1 Freezing Pure Water http://www.memsuniverse.com/lab-on-chip/freezing-pure-water.html http://www.memsuniverse.com/lab-on-chip/freezing-pure-water.html#comments Sat, 27 Feb 2010 15:07:09 +0000 admin http://www.memsuniverse.com/?p=2314 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


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]]> http://www.memsuniverse.com/lab-on-chip/freezing-pure-water.html/feed 0 Inkjet formation of unilamellar lipid vesicles for cell-like encapsulation http://www.memsuniverse.com/lab-on-chip/inkjet-formation-of-unilamellar-lipid-vesicles-for-cell-like-encapsulation.html http://www.memsuniverse.com/lab-on-chip/inkjet-formation-of-unilamellar-lipid-vesicles-for-cell-like-encapsulation.html#comments Fri, 26 Feb 2010 18:01:03 +0000 admin http://www.memsuniverse.com/?p=2312 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


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]]> http://www.memsuniverse.com/lab-on-chip/inkjet-formation-of-unilamellar-lipid-vesicles-for-cell-like-encapsulation.html/feed 0 Phototransistor-based optoelectronic tweezers for dynamic cell manipulation in cell culture media http://www.memsuniverse.com/lab-on-chip/phototransistor-based-optoelectronic-tweezers-for-dynamic-cell-manipulation-in-cell-culture-media.html http://www.memsuniverse.com/lab-on-chip/phototransistor-based-optoelectronic-tweezers-for-dynamic-cell-manipulation-in-cell-culture-media.html#comments Thu, 25 Feb 2010 20:08:12 +0000 admin http://www.memsuniverse.com/?p=2310 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


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]]> http://www.memsuniverse.com/lab-on-chip/phototransistor-based-optoelectronic-tweezers-for-dynamic-cell-manipulation-in-cell-culture-media.html/feed 0 Flow free transport and caging of 5 μm beads http://www.memsuniverse.com/lab-on-chip/flow-free-transport-and-caging-of-5-%ce%bcm-beads.html http://www.memsuniverse.com/lab-on-chip/flow-free-transport-and-caging-of-5-%ce%bcm-beads.html#comments Tue, 26 May 2009 22:02:49 +0000 admin http://www.memsuniverse.com/?p=1631 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 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


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]]> http://www.memsuniverse.com/lab-on-chip/flow-free-transport-and-caging-of-5-%ce%bcm-beads.html/feed 0 Visualisation of Human Whole Blood Pumping http://www.memsuniverse.com/microfluidics/visualisation-of-human-whole-blood-pumping.html http://www.memsuniverse.com/microfluidics/visualisation-of-human-whole-blood-pumping.html#comments Tue, 12 May 2009 15:41:20 +0000 admin http://www.memsuniverse.com/?p=1628 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


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]]> http://www.memsuniverse.com/microfluidics/visualisation-of-human-whole-blood-pumping.html/feed 0 Droplet pairs in a confluence channel meet and fuse under interfacial tension http://www.memsuniverse.com/lab-on-chip/droplet-pairs-in-a-confluence-channel-meet-and-fuse-under-interfacial-tension.html http://www.memsuniverse.com/lab-on-chip/droplet-pairs-in-a-confluence-channel-meet-and-fuse-under-interfacial-tension.html#comments Mon, 06 Apr 2009 01:32:16 +0000 admin http://www.memsuniverse.com/?p=1368 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


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]]> http://www.memsuniverse.com/lab-on-chip/droplet-pairs-in-a-confluence-channel-meet-and-fuse-under-interfacial-tension.html/feed 0 Redistribution of colloidal particles between two microwells http://www.memsuniverse.com/lab-on-chip/redistribution-of-colloidal-particles-between-two-microwells.html http://www.memsuniverse.com/lab-on-chip/redistribution-of-colloidal-particles-between-two-microwells.html#comments Sun, 05 Apr 2009 14:51:30 +0000 admin http://www.memsuniverse.com/?p=1359 Video related to research article in Lab on a chip Jörg Baumgartl, et al, Optical redistribution of microparticles and cells between microwells View article at: http://xlink.rsc.org/doi=?b901322a

Duration : 0:1:24


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]]> http://www.memsuniverse.com/lab-on-chip/redistribution-of-colloidal-particles-between-two-microwells.html/feed 0 Microvalve-actuated precise control of individual droplets in microfluidic devices http://www.memsuniverse.com/microfluidics/lab-on-a-chip-article-b8218o3j-video-3.html http://www.memsuniverse.com/microfluidics/lab-on-a-chip-article-b8218o3j-video-3.html#comments Fri, 03 Apr 2009 06:04:29 +0000 admin http://www.memsuniverse.com/?p=1355 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.

This article is published on Lab on a chip journal for more reading:

Shaojiang Zeng, Lab Chip, 2009, DOI: 10.1039/b821803j

Duration : 0:0:14

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]]> http://www.memsuniverse.com/microfluidics/lab-on-a-chip-article-b8218o3j-video-3.html/feed 0 Lab on a chip article b811740c http://www.memsuniverse.com/lab-on-chip/lab-on-a-chip-article-b811740c.html http://www.memsuniverse.com/lab-on-chip/lab-on-a-chip-article-b811740c.html#comments Tue, 31 Mar 2009 22:56:30 +0000 admin http://www.memsuniverse.com/?p=1352 Video related to research article in Lab on a chip Je-Kyun Park et al Rapid and selective concentration of microparticles in an optoelectrofluidic platform Read article at http://xlink.rsc.org/?doi=b811740c

Duration : 0:0:45


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