Difference between revisions of "20210330 meeting"
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- To trap cells we can use many smaller, singular traps, or we could cluster cells together using droplet generation, and then use a big trap instead. | - To trap cells we can use many smaller, singular traps, or we could cluster cells together using droplet generation, and then use a big trap instead. | ||
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- Designs have to take into account that the smallest resolution of our photolithography is about 20 microns. | - Designs have to take into account that the smallest resolution of our photolithography is about 20 microns. | ||
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- We can dissolve nutrition into the fluid itself so we don't have to diffuse gasses into the cell chambers as part of the design | - We can dissolve nutrition into the fluid itself so we don't have to diffuse gasses into the cell chambers as part of the design | ||
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- We can make fewer "serpetines" when making a diffusion gradient by making use of a special type of design. "Altered tree shape". Then there's less risk of blockage in the channels. | - We can make fewer "serpetines" when making a diffusion gradient by making use of a special type of design. "Altered tree shape". Then there's less risk of blockage in the channels. | ||
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- We can use | - We can use |
Revision as of 15:12, 30 March 2021
Meetings notes 30.03.2021 (Written by Jan M.)
Brainstorming:
- To trap cells we can use many smaller, singular traps, or we could cluster cells together using droplet generation, and then use a big trap instead.
- Designs have to take into account that the smallest resolution of our photolithography is about 20 microns.
- We can dissolve nutrition into the fluid itself so we don't have to diffuse gasses into the cell chambers as part of the design
- We can make fewer "serpetines" when making a diffusion gradient by making use of a special type of design. "Altered tree shape". Then there's less risk of blockage in the channels.
- We can use