Line 136: | Line 136: | ||
</video></div> | </video></div> | ||
</li> | </li> | ||
+ | |||
+ | <li class="list-group-item borderless"><b>August 19:</b> We successfully dissolved 0.55g PLA in 8ml DMF at 80-90 deg. C (68.75 g/L) and precipitated it by pouring the solution into room temperature EtOH (disolol, denatured) | ||
+ | </li> | ||
+ | |||
+ | <li class="list-group-item borderless"><b>August 20:</b> Filament precipitated and washed with ethanol (cf. 19/09). | ||
+ | </li> | ||
+ | |||
<li class="list-group-item borderless"><b>August 22:</b> A brainstorm on how to stack the collectors (not geometrically feasible :( ). | <li class="list-group-item borderless"><b>August 22:</b> A brainstorm on how to stack the collectors (not geometrically feasible :( ). | ||
<div class="center"><img src="https://static.igem.org/mediawiki/2016/1/11/Brainstormstacking.png" alt="ShapeV2" height="567" width="745"></div> | <div class="center"><img src="https://static.igem.org/mediawiki/2016/1/11/Brainstormstacking.png" alt="ShapeV2" height="567" width="745"></div> | ||
Line 179: | Line 186: | ||
</ul> | </ul> | ||
</li> | </li> | ||
+ | |||
+ | <li class="list-group-item borderless"><b>September 12:</b> Biotin should be soluble in DMF at 1.7 g/L at least (more at higher temperatures), also in EtOH at 0.8 g/L so be sure to saturate the washing solution as well (see 'Experimental Measurement and Modeling of the Solubility of Biotin in Six Pure Solvents at Temperatures from 298.15 K to 333.85 K' by Su et al.). Solubilising solution for 1.375g PLA: 20 mL DMF + 50 mg biotin (to saturation), Precipitating solution (washing solution is identical): 50 mL EtOH + 40 mg biotin. | ||
+ | </li> | ||
+ | |||
<li class="list-group-item borderless"><b>September 14:</b> | <li class="list-group-item borderless"><b>September 14:</b> | ||
<ul> | <ul> | ||
Line 186: | Line 197: | ||
</video></div> | </video></div> | ||
</li> | </li> | ||
+ | <li>We scaled the filament up to 10x. A slightly temperature raise was necessary to dissolve the PLA (145°C instead of 130°C on plate). When precipitating in ethanol, a rather glutinous substance was received on top of some big flakes that could be recuperatied: recuperated substance was dried, and ethanol with DMF was stored overnight at room temperature.</li> | ||
</ul> | </ul> | ||
</li> | </li> | ||
− | <li class="list-group-item borderless"><b>September 15:</b> Our <a style="margin-right: 0px; padding-right: 0px;" href="https://www.gofundme.com/2p5xfhg" target="_blank">crowdfunding page</a> is live! | + | |
+ | <li class="list-group-item borderless"><b>September 15:</b> | ||
+ | <ul> | ||
+ | <li>Our <a style="margin-right: 0px; padding-right: 0px;" href="https://www.gofundme.com/2p5xfhg" target="_blank">crowdfunding page</a> is live! | ||
+ | </li> | ||
+ | <li> | ||
+ | The filament sample (cf. 14/09) was decanted and centrifuged (6 falcons). PLA-biotin was harvested (pellet) and was set to dry at 70°C overnight. | ||
+ | </li> | ||
+ | </ul> | ||
</li> | </li> | ||
+ | |||
+ | |||
<li class="list-group-item borderless"><b>September 18:</b> We made a temperature and humidity sensor with a Raspberry Pi so we can observe the environment while testing our 3D shape | <li class="list-group-item borderless"><b>September 18:</b> We made a temperature and humidity sensor with a Raspberry Pi so we can observe the environment while testing our 3D shape | ||
<div class="center"><img src="https://static.igem.org/mediawiki/2016/f/f1/T--UGent_Belgium--humTempSensor.jpg" alt="Skype interview Lausanne" height="300" width="400"></div> | <div class="center"><img src="https://static.igem.org/mediawiki/2016/f/f1/T--UGent_Belgium--humTempSensor.jpg" alt="Skype interview Lausanne" height="300" width="400"></div> | ||
Line 234: | Line 256: | ||
<div class="center"><img src="https://static.igem.org/mediawiki/2016/c/c6/T--UGent_Belgium--collectorV4.png" alt="Water collector version 4" height="320" width="400"></div> | <div class="center"><img src="https://static.igem.org/mediawiki/2016/c/c6/T--UGent_Belgium--collectorV4.png" alt="Water collector version 4" height="320" width="400"></div> | ||
</li> | </li> | ||
+ | |||
<li class="list-group-item borderless"><b>October 02:</b> New 3D design made by weaving ribbons (let the inner artist go!). | <li class="list-group-item borderless"><b>October 02:</b> New 3D design made by weaving ribbons (let the inner artist go!). | ||
<div class="center"><img src="https://static.igem.org/mediawiki/2016/4/43/Ribbons.png" alt="Water collector version 4" height="289" width="392"></div> | <div class="center"><img src="https://static.igem.org/mediawiki/2016/4/43/Ribbons.png" alt="Water collector version 4" height="289" width="392"></div> | ||
</li> | </li> | ||
+ | |||
+ | <li class="list-group-item borderless"><b>October 05:</b> | ||
+ | New filament batch: 13.75 g PLA, 1000 mg Biotin in 200 mL DMF. Precipitation solution: 200 mL EtOH, 200 mg biotin, washing solution: 50 mL EtOH, 40 mg biotin. | ||
+ | </li> | ||
<li class="list-group-item borderless"><b>October 07:</b> 3Ders did a <a href="http://www.3ders.org/articles/20161007-ugent-fights-water-scarcity-with-3d-printed-dewpal-water-collector.html" target="_blank">press article</a> on our project</li> | <li class="list-group-item borderless"><b>October 07:</b> 3Ders did a <a href="http://www.3ders.org/articles/20161007-ugent-fights-water-scarcity-with-3d-printed-dewpal-water-collector.html" target="_blank">press article</a> on our project</li> |
Revision as of 15:23, 11 October 2016
Notebook
- February 29:
- Application for iGEM is sent
- A team of four master students is assembled under guidance of PI Wim
- March 03: Brainstorming for subjects starts
- March 24: PI's Marjan and Yves join the team
- April 22: Three subjects are chosen, and a presentation is prepared
- May 03: Our iGEM application is officially accepted
- May 04: Presentation on possible subjects for PI Wim
- May 06: Six PhD students and one advisor join our team
- May 17: First meeting
- May 31: We have our subject!
- The work gets divided into four work packages, and team members are assigned
- June 15: Fablab is contacted to be a partner for 3D printing our collector, they accepted
- June 29: Abstract is written and added to site
- July 07:
- July 18: Our stay in America has been booked
- July 19: Work package 'shape' decides to use Autodesk Fusion 360 to shape the water collector
- July 22: Prof Dan Fernandez (CSUMB), who makes fog catchers, is interested to work with us
- August 01: First 3D model of water collector prototype: dome with a gutter to collect the water. Printed the first prototype.
- August 04: New water collector shape with holes to distribute the water.
- August 15: The info video is made and put on the website
- August 19: We successfully dissolved 0.55g PLA in 8ml DMF at 80-90 deg. C (68.75 g/L) and precipitated it by pouring the solution into room temperature EtOH (disolol, denatured)
- August 20: Filament precipitated and washed with ethanol (cf. 19/09).
- August 22: A brainstorm on how to stack the collectors (not geometrically feasible :( ).
- August 30: Our first batch of PLA is delivered. Brainstorming on a new stackable water collector. Only holes on the bottom and top with a cavity under the dome.
- September 01:
- The first batch of biotin is delivered: the work on the filament can begin!
- Steven, our advisor, met up with the EPFL team in Lausanne, Switserland. They immediately bonded
- September 06: The first batch of our filament is made.
- September 07: We collaborated with the iGEM Virginia team by filling in their survey
- September 13:
- September 12: Biotin should be soluble in DMF at 1.7 g/L at least (more at higher temperatures), also in EtOH at 0.8 g/L so be sure to saturate the washing solution as well (see 'Experimental Measurement and Modeling of the Solubility of Biotin in Six Pure Solvents at Temperatures from 298.15 K to 333.85 K' by Su et al.). Solubilising solution for 1.375g PLA: 20 mL DMF + 50 mg biotin (to saturation), Precipitating solution (washing solution is identical): 50 mL EtOH + 40 mg biotin.
- September 14:
- We printed three different prototypes of our water collector
- We scaled the filament up to 10x. A slightly temperature raise was necessary to dissolve the PLA (145°C instead of 130°C on plate). When precipitating in ethanol, a rather glutinous substance was received on top of some big flakes that could be recuperatied: recuperated substance was dried, and ethanol with DMF was stored overnight at room temperature.
- September 15:
- Our crowdfunding page is live!
- The filament sample (cf. 14/09) was decanted and centrifuged (6 falcons). PLA-biotin was harvested (pellet) and was set to dry at 70°C overnight.
- September 18: We made a temperature and humidity sensor with a Raspberry Pi so we can observe the environment while testing our 3D shape
- September 20: The water collector without biotin was tested for its water collecting efficiency
- September 21: We met with Winnie from ReaGent
- September 23:
- September 24: We made an experimental set up with a humidifier and our temperature and humidity sensor (cf. 15/09) to test the water collection of our shape
- September 26: We tried our INP: it works!
- September 29: A logo has been designed. Shape design now includes a screw cap to fit on a plastic bottle.
- October 01: Developed a new 3D design, with an active surface area that is almost 20 times larger than the previous (third) version
- October 02: New 3D design made by weaving ribbons (let the inner artist go!).
- October 05: New filament batch: 13.75 g PLA, 1000 mg Biotin in 200 mL DMF. Precipitation solution: 200 mL EtOH, 200 mg biotin, washing solution: 50 mL EtOH, 40 mg biotin.
- October 07: 3Ders did a press article on our project
- October 09: We started coating the water collector with biotin. Solvent with PLA and biotin is poured over the water collector and left to dry under the laminar air cabinet.
- October 26: We're off to America!