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<p>Let's start by defining what the inputs and outputs are to your microfluidic chip! Are there any limitations in terms of port size, channel width? </p> | <p>Let's start by defining what the inputs and outputs are to your microfluidic chip! Are there any limitations in terms of port size, channel width? </p> | ||
<p>Fluigi will best place and route the control layer (valves to push/pull fluid through using pressure) and flow layer (through which fluid flows) of the microfluidic chip.</p> | <p>Fluigi will best place and route the control layer (valves to push/pull fluid through using pressure) and flow layer (through which fluid flows) of the microfluidic chip.</p> | ||
<p>iGem Work: The mapper (MM) tool. Click the button below to learn more about our MM tool. </p> | <p>iGem Work: The mapper (MM) tool. Click the button below to learn more about our MM tool. </p> | ||
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<a href="#" class="btn btn-light">Learn More </a> | <a href="#" class="btn btn-light">Learn More </a> | ||
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<p>Check and visualize your device layout using the Fluigi graphical user interface. </p> | <p>Check and visualize your device layout using the Fluigi graphical user interface. </p> | ||
<p> This graphical user interface also allows you to edit your design and control the fluids in the microfluidic chip. The interface has been made completely by the iGEM Team</p> | <p> This graphical user interface also allows you to edit your design and control the fluids in the microfluidic chip. The interface has been made completely by the iGEM Team</p> | ||
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<a href="#" class="btn btn-light">Learn More </a> | <a href="#" class="btn btn-light">Learn More </a> | ||
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<p>Ready to make your chip? Import our design files into a 3D Printer and CNC mill to make the chip and the pump setup! You can also make/change the setup using our parameterized designs.</p> | <p>Ready to make your chip? Import our design files into a 3D Printer and CNC mill to make the chip and the pump setup! You can also make/change the setup using our parameterized designs.</p> | ||
− | <p> The design of the setup is BU iGEM work, whilst the chip manufacturing is the work of our mentors. </ | + | <p> The design of the setup is BU iGEM work, whilst the chip manufacturing is the work of our mentors. </p> |
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<a href="#" class="btn btn-light">Learn More</a> | <a href="#" class="btn btn-light">Learn More</a> | ||
</h4> | </h4> |
Revision as of 22:40, 26 June 2016
Fluigi is a tool used to specify, design, and build a microfluidic device.
What are Microfluidics?
Here's where Fluigi comes into use!
Where can we use Microfluidics?
- Synthetic Biology: 'Lab on a Chip', 2014 - Experiments to monitor precise control of the number and concentration of input: 'Diverse Sensitivity Thresholds in Dynamic Signaling Response by Social Amoebae', 2012 - Single-cell tracking: 'Microfluidics for Synthetic Biology: From Design to Execution' - Microchemostat for environmental control: 'Long-Term Monitoring of Bacteria Undergoing Programmed Population Control in a Microchemostat', 2005