Difference between revisions of "Template:TU Darmstadt/Flowchartb"

Line 462: Line 462:
 
               y="393.58313"
 
               y="393.58313"
 
               x="-41.766598"
 
               x="-41.766598"
               sodipodi:role="line">8. Technik:</tspan><tspan
+
               sodipodi:role="line">8. Tech:</tspan><tspan
 
               id="tspan9119"
 
               id="tspan9119"
 
               style="font-size:4.23333311px;line-height:0.5em;stroke-width:0.26458332"
 
               style="font-size:4.23333311px;line-height:0.5em;stroke-width:0.26458332"

Revision as of 16:46, 30 October 2017

image/svg+xml 6. Hydrogel:To use the wound healing supportive properties of chitosan,we manufactured non-toxic, low-cost hydrogels, containingdefined chitosans for usage in wound care.Visit the subpage! 9. CloneCademy:In order to share the knowledge aboutsynthetic biology and the achievementsof our project, we developed a web-basedinteractive learning platform calledCloneCademy. This education tool makesit possible for other iGEM teams to sharetheir ideas with society.Visit the subpage! 7. Solution:By combining the physiological propertiesof chitosan and the modern detectionsystem for wound infections in a hydrogelbandaid, we realized next generation wound care. Furthermore, we successfullyproved all milestones of our project.Visit the subpage! 8. Tech:We constructed a low costdigital inline holographic microscope (DIHM) with aresolution of up to 10µm includinga software solution. This makes it possible for usto see our E. coli cells during the production processof chitosan. The reconstruction of our microscope is executed with the open source Holopy package.Visit the subpage!