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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>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? Fluigi will best place and route the layers in your chip. </p> |
− | + | <p>iGem Work: The mapper (MM) tool within the place and routing functionality. 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> |
Revision as of 22:44, 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