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            <h1></br> Fluigi</h1>
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<h3>
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<br><br><br><br><br><br><br><br><br><br><br><br><br><br><br><br><br><br><br><br><br>
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</h3>
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            <h3>Boston University iGem Special Track 2016: Hardware</h3>
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            <h3>Fluigi is a tool used to specify, design, and build a microfluidic device.</h3>
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                <div class="col-lg-10 col-lg-offset-1">
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                    <h2>Project Description</h2>
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                              <span class="fa-stack fa-4x" >
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                                <i class="fa fa-circle fa-stack-2x" ></i>
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                                <i class="fa fa-cloud fa-stack-1x text-primary"></i>
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Fluigi is an end-to-end specify, design, and build workflow for the development of continuous flow microfluidics. With Fluigi, users can specify microfluidic devices through a high level description of liquid flow relations. Our application will automatically place and route the design schematic of the microfluidic, and our application is compatible with low cost and readily available CAD tools that will build the final microfluidic device.
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</br> </br>
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The Boston University 2016 iGem Hardware Team is completing this workflow by providing a front end user interface that allows simple and intuitive navigation of the application. This user interface encapsulates the whole of the workflow: users can write files that specify the function of the microfluidic. Users can then preview and edit their microfluidic design that was placed by the application. Users can use this application directly with CAD tools such as a CNC mill to fabricate their device. Finally, our application provides the ability to physically control valves and ports on the microfluidic chip through the user interface. The iGem team is also complementing this workflow by developing and releasing open source designs of our hardware, including parametric 3D print files, and firmware for microcontrollers that actuate the microfluidic valves. Finally, the iGem team is also involved in the development of the place and route software that converts a high level description of liquid flow relations into a microfluidic netlist that can that be converted into a design schematic.
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<div id="uses" class="col-lg-10 col-lg-offset-1">
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<h2 align="center"> Where can we use Microfluidics? </h2>
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            <br>
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- Synthetic Biology:
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<a href="http://pubs.rsc.org/en/content/articlepdf/2014/lc/c4lc00509k"> 'Lab on a Chip', 2014</a>
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</br>
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- Experiments to monitor precise control of the number and concentration of input:
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<a href="http://stke.sciencemag.org/content/5/213/ra17.full"> 'Diverse Sensitivity Thresholds in Dynamic Signaling Response by Social Amoebae', 2012</a>
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</br>
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- Single-cell tracking:
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<a href="http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4836382"> 'Microfluidics for Synthetic Biology: From Design to Execution'</a>
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</br>
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- Microchemostat for environmental control:
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<a href="http://science.sciencemag.org/content/309/5731/137.full">'Long-Term Monitoring of Bacteria Undergoing Programmed Population Control in a Microchemostat', 2005</a>
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<br>
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<div class="container">
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<div class="col-lg-10 col-lg-offset-1 text-center">
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                    <h2>Our Tool</h2>
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                                <i class="fa fa-circle fa-stack-2x"></i>
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                                <i class="fa fa-cloud fa-stack-1x text-primary"></i>
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                            </span>
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                                <h3>
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                                    Specify
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</h3>
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<h4>
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        </br>
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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? Fluigi will best place and route the layers in your chip. </p>
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<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>
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</br>
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<a href="#" class="btn btn-light">Learn More </a> 
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                                <i class="fa fa-circle fa-stack-2x"></i>
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                                <i class="fa fa-compass fa-stack-1x text-primary"></i>
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                                <h3>
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                                    Design
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</h3>
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<h4>
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        </br>
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                                <p>Check and visualize your device layout using the Fluigi graphical user interface. </p>
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<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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<br/>
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                                <a href="#" class="btn btn-light">Learn More </a>
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</h4>
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                            <div class="service-item">
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                                <i class="fa fa-flask fa-stack-1x text-primary"></i>
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                            </span>
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                                  <h3>
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                                    Build
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</h3>
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<h4>
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        </br>
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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>
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<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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</br>
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                                <a href="#" class="btn btn-light">Learn More</a>
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</h4>
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                            </div>
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                        </div>
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                    <h2>Our Work</h2>
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                    <hr class="small">
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                    <div class="row">
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                        <div class="col-md-6">
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    <!-- Footer -->
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    <footer id="contact">
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<div class="col-lg-10 col-lg-offset-1 text-center">
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                    <h2>Contact Us</h2>
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                    <ul>
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<div class="col-md-6 col-lg-offset-1">
 +
<img src= "https://static.igem.org/mediawiki/2016/2/25/ValenciaUPV_twitterLogo.png" height="50px">
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                      <a href="http://twitter.com/iGemHWBU">Twitter </a> 
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<div class="col-md-2">
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<img src= "https://static.igem.org/mediawiki/2016/2/2c/ValenciaUPV_mailLogo.png" height="50px">
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                      <a href="mailto:bu.igemhw2016@gmail.com"> Email</a>
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</div>
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                      <br/><br/><br/>
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                    </ul>
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                    <hr class="small">
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                    <p class="text-muted">Copyright &copy; Boston University Hardware Team Website 2016</p>
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Revision as of 16:11, 29 June 2016


Fluigi






















Boston University iGem Special Track 2016: Hardware

Fluigi is a tool used to specify, design, and build a microfluidic device.

Project Description



Fluigi is an end-to-end specify, design, and build workflow for the development of continuous flow microfluidics. With Fluigi, users can specify microfluidic devices through a high level description of liquid flow relations. Our application will automatically place and route the design schematic of the microfluidic, and our application is compatible with low cost and readily available CAD tools that will build the final microfluidic device.

The Boston University 2016 iGem Hardware Team is completing this workflow by providing a front end user interface that allows simple and intuitive navigation of the application. This user interface encapsulates the whole of the workflow: users can write files that specify the function of the microfluidic. Users can then preview and edit their microfluidic design that was placed by the application. Users can use this application directly with CAD tools such as a CNC mill to fabricate their device. Finally, our application provides the ability to physically control valves and ports on the microfluidic chip through the user interface. The iGem team is also complementing this workflow by developing and releasing open source designs of our hardware, including parametric 3D print files, and firmware for microcontrollers that actuate the microfluidic valves. Finally, the iGem team is also involved in the development of the place and route software that converts a high level description of liquid flow relations into a microfluidic netlist that can that be converted into a design schematic.

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