Difference between revisions of "Team:BostonU HW/Safety"

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<h4> Our microfluidic device is designed for cell-free systems for simplicity. Following further development, we could proceed to extend our systems to include mammalian cells. This would reduce the risk of harming any human, animal, or plant.</h4>
 
<h4> Our microfluidic device is designed for cell-free systems for simplicity. Following further development, we could proceed to extend our systems to include mammalian cells. This would reduce the risk of harming any human, animal, or plant.</h4>
 
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<h4> To create our microfluidic chip, we use a Polydimethylsiloxane (PDMS) layer to bind the control layer and the flow layer. This is a polymeric organosilicon compound that has no marked harmful effects on organisms in the environment. Thus, it is a safe silicone to use for our consumer market, which are biologists in labs. Consequently, if our product is successful and is extended to include cell systems, the chemicals and tools we are using will not harm any living organism.</h4>
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<h4> To create our microfluidic chip, we use a Polydimethylsiloxane (PDMS) layer to bind the control layer and the flow layer. This is a polymeric organosilicon compound that has 'no marked harmful effects on organisms in the environment' according to <a href= 'https://dx.doi.org/10.1002%2F14356007.a24_057'> Ullmann's Encyclopedia.</a>Thus, it is a safe silicone to use for our consumer market, which are biologists in labs. Consequently, if our product is successful and is extended to include cell systems, the chemicals and tools we are using will not harm any living organism.</h4>
 
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<h4> When all of our materials are used up, our materials can be safely dealt with. Our polycarbonate base for the entire setup and microfluidic chip is recyclable, and the rest of the plastics (the 3D printed parts and PDMS layer) can be easily discarded. However, these materials are safe and much cheaper than other technologies that do the same thing. </h4>
 
<h4> When all of our materials are used up, our materials can be safely dealt with. Our polycarbonate base for the entire setup and microfluidic chip is recyclable, and the rest of the plastics (the 3D printed parts and PDMS layer) can be easily discarded. However, these materials are safe and much cheaper than other technologies that do the same thing. </h4>

Revision as of 10:10, 6 July 2016

Safety



Project Design


Our microfluidic device is designed for cell-free systems for simplicity. Following further development, we could proceed to extend our systems to include mammalian cells. This would reduce the risk of harming any human, animal, or plant.


To create our microfluidic chip, we use a Polydimethylsiloxane (PDMS) layer to bind the control layer and the flow layer. This is a polymeric organosilicon compound that has 'no marked harmful effects on organisms in the environment' according to Ullmann's Encyclopedia.Thus, it is a safe silicone to use for our consumer market, which are biologists in labs. Consequently, if our product is successful and is extended to include cell systems, the chemicals and tools we are using will not harm any living organism.


When all of our materials are used up, our materials can be safely dealt with. Our polycarbonate base for the entire setup and microfluidic chip is recyclable, and the rest of the plastics (the 3D printed parts and PDMS layer) can be easily discarded. However, these materials are safe and much cheaper than other technologies that do the same thing.


One problem that could arise with our project design is creating a living environment inside the microfluidic chip for future use with cell systems. This would require more thinking and future experiments to find a good solution.

Safe Lab Work


Being a hardware team, we work in a computer laboratory with no chemicals, toxins, or extreme cold temperatures. However, we do have machines and tools. To ensure lab safety, we wear eye protection when working with the drills, and wear gloves when needed.





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