Difference between revisions of "Team:TAS Taipei"

 
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{{TAS Taipei/CSS3}}
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{{TAS Taipei/CSS4}}
  
 
<html lang="en">
 
<html lang="en">
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         <h1>X</h1>
 
         <h1>X</h1>
 
     </div>
 
     </div>
     <div class="yellow">
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     <div class="yellow marginFix">
 
         <div class="box right">
 
         <div class="box right">
 
             <div class="box2 right project" href="https://2017.igem.org/Team:TAS_Taipei/Background">
 
             <div class="box2 right project" href="https://2017.igem.org/Team:TAS_Taipei/Background">
 
                 <img src="https://static.igem.org/mediawiki/2017/0/00/T--TAS_Taipei--Project_C.png" id="dna">
 
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                <h6 class="navCap">Project</h6>
 
             </div>
 
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             <div class="box2 right experiment" href="https://2017.igem.org/Team:TAS_Taipei/Experimental_Summary">
 
             <div class="box2 right experiment" href="https://2017.igem.org/Team:TAS_Taipei/Experimental_Summary">
 
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             <div class="box2 right prototype" href="https://2017.igem.org/Team:TAS_Taipei/Prototype">
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                <h6 class="navCap">Safety</h6>
 
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             <div class="box2 right about" href="https://2017.igem.org/Team:TAS_Taipei/Team">
 
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                <h6 class="navCap">About Us</h6>
 
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             <div class="box2 right acknowledgments" href="https://2017.igem.org/Team:TAS_Taipei/Attributions">
 
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                <h6 class="navCap">Attributions</h6>
 
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                 <h1>Modeling</h1>
 
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             <div class="box3 left prototype" href="https://2017.igem.org/Team:TAS_Taipei/Prototype">
+
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                 <h1>Prototype</h1>
 
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             </div>
 
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             <div class="box3 left biosafety" href="https://2017.igem.org/Team:TAS_Taipei/Safety">
 
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                 <h1>Biosafety</h1>
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                 <h1>Safety</h1>
 
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             <div class="box3 left about" href="https://2017.igem.org/Team:TAS_Taipei/Team">
 
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             </h1>
 
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             <h6>
 
             <h6>
                 NANOTRAP: one step in advancement, two steps back in environmental pollution.
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                 NANOTRAP: A two-pronged approach to preventing nanoparticle pollution in wastewater systems
 
             </h6>
 
             </h6>
 
         </div>
 
         </div>
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             </h1>
 
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             <h6>
 
             <h6>
                 Computational Biology provides us models that we cannot easily test experimentally. Find out about the results of our modeling and the math behind it!
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                 Computational Biology provides us insight on how to apply experimental data to real world applications!
 
             </h6>
 
             </h6>
 
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         </div>
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             </h1>
 
             </h1>
 
             <h6>
 
             <h6>
                 More than Lego building.
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                 Design, Build and Test: Putting our project to work.
 
             </h6>
 
             </h6>
 
         </div>
 
         </div>
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         <div class="guide">
 
         <div class="guide">
 
             <h1>
 
             <h1>
                 Biosafety
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                 Safety
 
             </h1>
 
             </h1>
 
             <h6>
 
             <h6>
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         </div>
 
         </div>
 
     </div>
 
     </div>
     <div class="slider-holder">
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     <main>
         <span id="slider-image-1"></span>
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         <h1>NANOTRAP</h1>
         <span id="slider-image-2"></span>
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         <h6 id="abstract1">Nanoparticle Removal from Wastewater Systems</h6>
         <span id="slider-image-3"></span>
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         <h6 id="this_title">TAS_TAIPEI</h6>
         <div class="image-holder">
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         <h6 id="this_title_2">2017 High School Grand Prize Winner</h6>
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                <h1 class="name col-lg-12">ABSTRACT</h1>
 
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                  The small size of nanoparticles is both an advantage and a problem. Their high surface-area-to-volume ratio enables novel medical, industrial, and commercial applications. However, their small size also allows them to evade conventional filtration during water treatment, posing health risks to humans, plants, and aquatic life. Our project aims to remove nanoparticles using two approaches: 1) bind citrate-capped nanoparticles with the membrane protein proteorhodopsin and 2) trap nanoparticles using E. coli biofilm produced by overexpressing two regulators -- OmpR234 and CsgD. We envision integrating our trapping system in both rural and urban wastewater treatment plants to efficiently capture all nanoparticles before treated water is released into the environment.<br><br>
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     <main>
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        <h6 id="this_title">TAS_TAIPEI 2017|</h6>
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        <h1><span>N</span>ANO</h1>
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        <h1 id="row2"><span>T</span>RAP</h1>
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        <h6 id="abstract1">Nanoparticle Removal from Water Systems</h6>
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        <h6 id="abstract2">The small size of nanoparticles is both an advantage and a problem. Their high surface-area-to-volume ratio enables novel medical, industrial, and commercial applications. However, their small size also allows them to evade conventional filtration during water treatment, posing health risks to humans, plants, and aquatic life. Our project aims to remove nanoparticles using two approaches: 1)  bind citrate-capped nanoparticles with the membrane protein proteorhodopsin and 2) trap nanoparticles using E. coli biofilm produced by overexpressing two regulators -- OmpR234 and CsgD. We envision integrating our trapping system in both rural and urban wastewater treatment plants to efficiently capture all nanoparticles before treated water is released into the environment.
+
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        <div>
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Latest revision as of 07:11, 30 November 2017

X

Project

Experiment

Modeling

Prototype

Human Practice

Safety

About Us

Attributions

NANOTRAP

Nanoparticle Removal from Wastewater Systems
TAS_TAIPEI
2017 High School Grand Prize Winner
test

ABSTRACT

The small size of nanoparticles is both an advantage and a problem. Their high surface-area-to-volume ratio enables novel medical, industrial, and commercial applications. However, their small size also allows them to evade conventional filtration during water treatment, posing health risks to humans, plants, and aquatic life. Our project aims to remove nanoparticles using two approaches: 1) bind citrate-capped nanoparticles with the membrane protein proteorhodopsin and 2) trap nanoparticles using E. coli biofilm produced by overexpressing two regulators -- OmpR234 and CsgD. We envision integrating our trapping system in both rural and urban wastewater treatment plants to efficiently capture all nanoparticles before treated water is released into the environment.