Difference between revisions of "Team:MSU-Michigan/Applied Design"

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<p>MSU-iGEM 2017 developed a cost effective, applied biosensor. We designed this biosensor to detect water contaminants in a variety of circumstances and be used by multiple audiences. The biosensor is user friendly even to common consumers and high school students as well. The simple design promotes easy assembly and can be used as an education tool for high schools to show the possibilities of synthetic biology. In detecting water contaminants, the biosensor is durable and portable for scientists to use in field testing and consumers to use at home. The system is designed for initial testing for contaminants that are not regulated or tested for by the EPA. The biosensor provides a cost effective, rapid initial to test if the water must be analyzed by more costly measures. The design also utilizes<a href="https://www.arduino.cc/">Arduino boards</a> (1,2,3) to apply the needed potential so the bacteria can produce electricity.</p>
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<p>MSU-iGEM 2017 developed a cost effective, applied biosensor. We designed this biosensor to detect water contaminants in a variety of circumstances and be used by multiple audiences. The biosensor is user friendly even to common consumers and high school students as well. The simple design promotes easy assembly and can be used as an education tool for high schools to show the possibilities of synthetic biology. In detecting water contaminants, the biosensor is durable and portable for scientists to use in field testing and consumers to use at home. The system is designed for initial testing for contaminants that are not regulated or tested for by the EPA. The biosensor provides a cost effective, rapid initial to test if the water must be analyzed by more costly measures. The design also utilizes <a href="https://www.arduino.cc/">Arduino boards</a> (1,2,3) to apply the needed potential so the bacteria can produce electricity.</p>
  
 
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Revision as of 00:37, 2 November 2017

Applied Design

Single-Chamber Biosensors

MSU-iGEM 2017 developed a cost effective, applied biosensor. We designed this biosensor to detect water contaminants in a variety of circumstances and be used by multiple audiences. The biosensor is user friendly even to common consumers and high school students as well. The simple design promotes easy assembly and can be used as an education tool for high schools to show the possibilities of synthetic biology. In detecting water contaminants, the biosensor is durable and portable for scientists to use in field testing and consumers to use at home. The system is designed for initial testing for contaminants that are not regulated or tested for by the EPA. The biosensor provides a cost effective, rapid initial to test if the water must be analyzed by more costly measures. The design also utilizes Arduino boards (1,2,3) to apply the needed potential so the bacteria can produce electricity.

Prototype Testing

File:MSU-Michigan mtrBcurrent.png

This is what happens when a hydrogen gas bubble forms and pushes the media up onto the electrode as well as having the potassium solution spill from the bioreactor due to a poor connection of the reference electrode.




References


(1) Aristizabal, D. H.; Giraldo, D. A.; Sanchez, S.; Taborda, G.; Baeza, A. J. Phys. Conf. Ser. 2017, 365, 11001.
(2) Jannelli, N.; Anna Nastro, R.; Cigolotti, V.; Minutillo, M.; Falcucci, G. Appl. Energy 2017, 192, 543–550.
(3) Yang, Y.; Ren, H.; Ben-Tzvi, P.; Yang, X.; He, Z. Int. J. Hydrogen Energy 2017, 42 (31), 20260–20268.


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