Project:Microfluidics: Difference between revisions
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{{ProjectInfoBox | {{ProjectInfoBox | ||
|project title= DIY Microfluidics devices | |project title= DIY Microfluidics devices | ||
|image= | |image= [[File:Microfluidics_thumbnail.jpeg]] | ||
|date = Q1 2019 | |date = Q1 2019 | ||
|status= in active development | |status= in active development | ||
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== What is microfluidics? == | == What is microfluidics? == | ||
Microfluidics deals with the behaviour, precise control and manipulation of fluids that are geometrically constrained to a small, typically sub- | Microfluidics deals with the behaviour, precise control and manipulation of fluids that are geometrically constrained to a small, typically sub-millimetre, scale at which capillary penetration governs mass transport. - Our goal is to develop custom DIY microfluidics chips (currently as a proof of concept), and perform lab-on-a-chip like experiments. | ||
== Development of our own microfluidics devices == | == Development of our own microfluidics devices == | ||
Revision as of 22:46, 1 August 2018
| ProjectInfoBox DIY Microfluidics devices | |
|---|---|
| [[Has image::File:File:Microfluidics thumbnail.jpeg|frameless|300px]] | |
| Status: | in active development |
| Release Date: | Q1 2019 |
| Initiator: | BIOTOP Community Lab e.V. |
| Team: | Patrick & Yunus |
| Materials Used: | Acrylic Glas, 3M Double Sided Tape |
| Tools Used: | Laser Cutter, Biotop Lab |
| Software Used: | Affinity Designer, VisiCut |
What is microfluidics?
Microfluidics deals with the behaviour, precise control and manipulation of fluids that are geometrically constrained to a small, typically sub-millimetre, scale at which capillary penetration governs mass transport. - Our goal is to develop custom DIY microfluidics chips (currently as a proof of concept), and perform lab-on-a-chip like experiments.
