Difference between revisions of "Team:Peking/Hardware"
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Microfluidics devices are applied to deal with flow of liquid inside micrometer-sized channels, and conduct | Microfluidics devices are applied to deal with flow of liquid inside micrometer-sized channels, and conduct | ||
| − | continuous observation under fluorescence microscopy. This year, we designed two microfluidic chips a | + | continuous observation under fluorescence microscopy. This year, we designed two microfluidic chips: a |
sand-clock chip and a seven-segment display chip. The sand-clock microfluidic device is a "mother machine", | sand-clock chip and a seven-segment display chip. The sand-clock microfluidic device is a "mother machine", | ||
which consists of dozens of thin channels holding single cells, and can be used to track individual cell | which consists of dozens of thin channels holding single cells, and can be used to track individual cell | ||
Revision as of 17:58, 1 November 2017
Microfluidics
Microfluidics devices are applied to deal with flow of liquid inside micrometer-sized channels, and conduct
continuous observation under fluorescence microscopy. This year, we designed two microfluidic chips: a
sand-clock chip and a seven-segment display chip. The sand-clock microfluidic device is a "mother machine",
which consists of dozens of thin channels holding single cells, and can be used to track individual cell
line for generations. And for the seven-segment display chip, cells were kept in chambers to observe
fluorescence changes.
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Autosnap
To demonstrate the functionality of our genetic circuit, Peking iGEM 2017 team have designed an independent and affordable device for the observation of colonies or 96-well plates which can
automatically capture and save digital pictures of colonies according to the pattern.We additionally add LED lights and filters for fluorescence observation.
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