Difference between revisions of "20210323 meeting"
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(Created page with "=Meeting 23.03.2021 Microfluidics (Written by Jan)=") |
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− | =Meeting 23.03.2021 Microfluidics (Written by Jan)= | + | =Meeting note 23.03.2021 Microfluidics (Written by Jan)= |
+ | Today we discussed more chip-designs. | ||
+ | |||
+ | - We talked about a loop-design to avoid using a sophisticated system to flush the system. Problem is, the loop won't work, because the flow has no inertia and will just follow towards the outlet. | ||
+ | |||
+ | - We also have a design where we integrate some gradient generators into the design | ||
+ | |||
+ | - We need to make sure there is no backflow | ||
+ | |||
+ | - Keep it simple, rather than complicated. We need experience first. | ||
+ | |||
+ | - How do we keep cells inside the chambers? Instead of just flushing them out all the time | ||
+ | |||
+ | - In the big chambers where the flow rate is small, the cells might stick to the walls. | ||
+ | |||
+ | - Width of channels is important. Bacteria is much, much smaller than human cells. So size is important. |
Revision as of 18:43, 23 March 2021
Meeting note 23.03.2021 Microfluidics (Written by Jan)
Today we discussed more chip-designs.
- We talked about a loop-design to avoid using a sophisticated system to flush the system. Problem is, the loop won't work, because the flow has no inertia and will just follow towards the outlet.
- We also have a design where we integrate some gradient generators into the design
- We need to make sure there is no backflow
- Keep it simple, rather than complicated. We need experience first.
- How do we keep cells inside the chambers? Instead of just flushing them out all the time
- In the big chambers where the flow rate is small, the cells might stick to the walls.
- Width of channels is important. Bacteria is much, much smaller than human cells. So size is important.