Difference between revisions of "Team:Bielefeld-CeBiTec/Hardware"
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<b style="color:#39F"> Summary </b><br> | <b style="color:#39F"> Summary </b><br> | ||
| − | + | New insights into cellular mechanisms are spreading the awareness of heterogeneity between single cells of one organism in the same environment. Therefore, we created a microfluidic chip for cultivation and single cell monitoring. This grants the opportunity of precise quantification and measurements of our systems recognition efficiency. As the manufacturing of these systems is quite complex and cost intensive with standard methods, we tried to use additive manufacturing and quick prototyping methods to find a cheap and effective alternative that meet the expectations. Further we examined methods for different tasks and organisms. | |
| − | + | <br> | |
| − | + | With the open source character in mind, we also engineered different useful devices to make microfluidic easily accessible for other Teams and able to use in other laboratories. The whole concept and the respective single devices are designed to make working with microfluidics easier and faster to process for everyone. | |
| + | <br> | ||
| + | In addition to our main Hardware project, we used additive manufacturing for different tasks and problems at our lab and with the open source character in mind created diverse helpful objects that can be useful and used by many teams. The parts are reaching from general lab supplies to mounts and even different models to make explanations more understandable and clearer. | ||
| + | <br> | ||
| + | With the emerging topic of plastic waste and environmental pollution, our goal was to reduce the burden that plastic waste causes to the environment. So, we exclusively used only biocompatible and biodegradable plastics for our apertures, mounts and casings. | ||
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Revision as of 14:48, 21 October 2019
Hardware
Summary
New insights into cellular mechanisms are spreading the awareness of heterogeneity between single cells of one organism in the same environment. Therefore, we created a microfluidic chip for cultivation and single cell monitoring. This grants the opportunity of precise quantification and measurements of our systems recognition efficiency. As the manufacturing of these systems is quite complex and cost intensive with standard methods, we tried to use additive manufacturing and quick prototyping methods to find a cheap and effective alternative that meet the expectations. Further we examined methods for different tasks and organisms.
With the open source character in mind, we also engineered different useful devices to make microfluidic easily accessible for other Teams and able to use in other laboratories. The whole concept and the respective single devices are designed to make working with microfluidics easier and faster to process for everyone.
In addition to our main Hardware project, we used additive manufacturing for different tasks and problems at our lab and with the open source character in mind created diverse helpful objects that can be useful and used by many teams. The parts are reaching from general lab supplies to mounts and even different models to make explanations more understandable and clearer.
With the emerging topic of plastic waste and environmental pollution, our goal was to reduce the burden that plastic waste causes to the environment. So, we exclusively used only biocompatible and biodegradable plastics for our apertures, mounts and casings.
New insights into cellular mechanisms are spreading the awareness of heterogeneity between single cells of one organism in the same environment. Therefore, we created a microfluidic chip for cultivation and single cell monitoring. This grants the opportunity of precise quantification and measurements of our systems recognition efficiency. As the manufacturing of these systems is quite complex and cost intensive with standard methods, we tried to use additive manufacturing and quick prototyping methods to find a cheap and effective alternative that meet the expectations. Further we examined methods for different tasks and organisms.
With the open source character in mind, we also engineered different useful devices to make microfluidic easily accessible for other Teams and able to use in other laboratories. The whole concept and the respective single devices are designed to make working with microfluidics easier and faster to process for everyone.
In addition to our main Hardware project, we used additive manufacturing for different tasks and problems at our lab and with the open source character in mind created diverse helpful objects that can be useful and used by many teams. The parts are reaching from general lab supplies to mounts and even different models to make explanations more understandable and clearer.
With the emerging topic of plastic waste and environmental pollution, our goal was to reduce the burden that plastic waste causes to the environment. So, we exclusively used only biocompatible and biodegradable plastics for our apertures, mounts and casings.
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