(Created page with "{{IONIS_HEADER}} <html> <!-- ====Google font==== --> <link href='https://fonts.googleapis.com/css?family=Merriweather:400,700,700italic,400italic,300italic...") |
|||
Line 19: | Line 19: | ||
<div class="row"> | <div class="row"> | ||
<div class="col-md-12"> | <div class="col-md-12"> | ||
− | + | <div class="dtable"> | |
− | <div class="dcell"> | + | <div class="dcell"> |
<div class="page_down text-center"> | <div class="page_down text-center"> | ||
<a href="#services" class="go-down"> | <a href="#services" class="go-down"> |
Revision as of 10:55, 11 October 2016
quantifly is a project born from a long pathway of brainstorms and meetings, where the team constructed a reflexion about contemporary problematics and innovative solutions. The bearth of Quantifly was the starting point of our great adventure in the iGEM competition.Quantifly
Human Practice
Project Genesis
The conception of Quantifly
State of the Art
Air pollution and its environment
This is why we developed the Quantifly project: a combination of a bacterial biosensor, perfectly adapted to on-field measurements, and an innovative drone that will allow us to easily and rapidly quantify the amount of VOCs in the air. The biosensor relies on bioluminescence, a biochemical phenomenon that is commonly used in cell imaging. We are trying to develop a new application for bioluminescence that should allow us to create a biosensor of a new kind, entirely different from the existing devices.
If you’ve followed along and done the steps above, you’ve created a good starting place. You’re going to need to make sure your pages are optimized properly.
Our Opinion Survey
Use of G.M.Os in the detection of air pollution
Concerning the drone, it is designed to safely contain our organisms and carry them on the field, thus acting as a mobile detection platform