Difference between revisions of "Team:Jilin China/Team"

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.team_page {
 
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float: left;
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clear: both;
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width: 45%;
height: 30px;
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float: right;
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padding: 5px;
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height: 300px;
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<div class="size">
 
<div class="team_page"> <img src="https://static.igem.org/mediawiki/2015/d/db/Team_jilin_china_home.png"> </div>
 
<div class="team_page"> <img src="https://static.igem.org/mediawiki/2015/d/db/Team_jilin_china_home.png"> </div>
<div class="team_page">
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<div class="team_page2">
 
   <h2>Welcome to our team</h2>
 
   <h2>Welcome to our team</h2>
   <p>Formaldehyde, as common contamination in daily life, is one of the most dangerous cancerogen in the world. The condition of formaldehyde pollution has alerted people. Thus, it is essential for everyone to detect and degrade formaldehyde right now. [1] However, there is no simple and convenient way to detect and degrade formaldehyde. On the contrary, available methods are usually too complicated for the public with a great amount of drawbacks. For example, Spectrophotometry is limited by experiment conditions and Prices of chromatography equipment are usually high. [1][2][3] So we want to design biobricks to solve this problem by using microorganism. </p>
+
   <p>Formaldehyde, as common contamination in daily life, is one of the most dangerous cancerogen in the world. The condition of formaldehyde pollution has alerted people. Thus, it is essential for everyone to detect and degrade formaldehyde right now. [1] However, there is no simple and convenient way to detect and degrade formaldehyde. On the contrary, available methods are usually too complicated for the public with a great amount of drawbacks. For example, Spectrophotometry is limited by experiment conditions and Prices of chromatography equipment are usually high. [1][2][3] So we want to design biobricks to solve this problem by using microorganism.</p>
  <div class="clear"></div>
+
 
 
</div>
 
</div>
<div class="team_page"> <img src="https://static.igem.org/mediawiki/2015/d/db/Team_jilin_china_home.png"> </div>
 
<div class="team_page">
 
  <h2>Welcome to our team</h2>
 
  <p>Formaldehyde, as common contamination in daily life, is one of the most dangerous cancerogen in the world. The condition of formaldehyde pollution has alerted people. Thus, it is essential for everyone to detect and degrade formaldehyde right now. [1] However, there is no simple and convenient way to detect and degrade formaldehyde. On the contrary, available methods are usually too complicated for the public with a great amount of drawbacks. For example, Spectrophotometry is limited by experiment conditions and Prices of chromatography equipment are usually high. [1][2][3] So we want to design biobricks to solve this problem by using microorganism. </p>
 
 
</div>
 
</div>
<div class="clear"></div>
+
<div class="team_page2"> <img src="https://static.igem.org/mediawiki/2015/d/db/Team_jilin_china_home.png"> </div>
<div class="team_page"> <img src="https://static.igem.org/mediawiki/2015/d/db/Team_jilin_china_home.png"> </div>
+
 
<div class="team_page">
 
<div class="team_page">
 
   <h2>Welcome to our team</h2>
 
   <h2>Welcome to our team</h2>
   <p>Formaldehyde, as common contamination in daily life, is one of the most dangerous cancerogen in the world. The condition of formaldehyde pollution has alerted people. Thus, it is essential for everyone to detect and degrade formaldehyde right now. [1] However, there is no simple and convenient way to detect and degrade formaldehyde. On the contrary, available methods are usually too complicated for the public with a great amount of drawbacks. For example, Spectrophotometry is limited by experiment conditions and Prices of chromatography equipment are usually high. [1][2][3] So we want to design biobricks to solve this problem by using microorganism. </p>
+
   <p>Formaldehyde, as common contamination in daily life, is one of the most dangerous cancerogen in the world. The condition of formaldehyde pollution has alerted people. Thus, it is essential for everyone to detect and degrade formaldehyde right now. [1] However, there is no simple and convenient way to detect and degrade formaldehyde. On the contrary, available methods are usually too complicated for the public with a great amount of drawbacks. For example, Spectrophotometry is limited by experiment conditions and Prices of chromatography equipment are usually high. [1][2][3] So we want to design biobricks to solve this problem by using microorganism.</p>
 +
 
 +
</div>
 
</div>
 
</div>
<div class="clear"></div>
 
 
<div class="team_page"> <img src="https://static.igem.org/mediawiki/2015/d/db/Team_jilin_china_home.png"> </div>
 
<div class="team_page"> <img src="https://static.igem.org/mediawiki/2015/d/db/Team_jilin_china_home.png"> </div>
<div class="team_page">
+
<div class="team_page2">
 
   <h2>Welcome to our team</h2>
 
   <h2>Welcome to our team</h2>
   <p>Formaldehyde, as common contamination in daily life, is one of the most dangerous cancerogen in the world. The condition of formaldehyde pollution has alerted people. Thus, it is essential for everyone to detect and degrade formaldehyde right now. [1] However, there is no simple and convenient way to detect and degrade formaldehyde. On the contrary, available methods are usually too complicated for the public with a great amount of drawbacks. For example, Spectrophotometry is limited by experiment conditions and Prices of chromatography equipment are usually high. [1][2][3] So we want to design biobricks to solve this problem by using microorganism. </p>
+
   <p>Formaldehyde, as common contamination in daily life, is one of the most dangerous cancerogen in the world. The condition of formaldehyde pollution has alerted people. Thus, it is essential for everyone to detect and degrade formaldehyde right now. [1] However, there is no simple and convenient way to detect and degrade formaldehyde. On the contrary, available methods are usually too complicated for the public with a great amount of drawbacks. For example, Spectrophotometry is limited by experiment conditions and Prices of chromatography equipment are usually high. [1][2][3] So we want to design biobricks to solve this problem by using microorganism.</p>
 +
 
 +
</div>
 
</div>
 
</div>
 
</body>
 
</body>
 
</html>
 
</html>

Revision as of 12:03, 16 September 2015




Indian Institute of Science Education and Research (IISER), Pune, India

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Welcome to our team

Formaldehyde, as common contamination in daily life, is one of the most dangerous cancerogen in the world. The condition of formaldehyde pollution has alerted people. Thus, it is essential for everyone to detect and degrade formaldehyde right now. [1] However, there is no simple and convenient way to detect and degrade formaldehyde. On the contrary, available methods are usually too complicated for the public with a great amount of drawbacks. For example, Spectrophotometry is limited by experiment conditions and Prices of chromatography equipment are usually high. [1][2][3] So we want to design biobricks to solve this problem by using microorganism.

Welcome to our team

Formaldehyde, as common contamination in daily life, is one of the most dangerous cancerogen in the world. The condition of formaldehyde pollution has alerted people. Thus, it is essential for everyone to detect and degrade formaldehyde right now. [1] However, there is no simple and convenient way to detect and degrade formaldehyde. On the contrary, available methods are usually too complicated for the public with a great amount of drawbacks. For example, Spectrophotometry is limited by experiment conditions and Prices of chromatography equipment are usually high. [1][2][3] So we want to design biobricks to solve this problem by using microorganism.

Welcome to our team

Formaldehyde, as common contamination in daily life, is one of the most dangerous cancerogen in the world. The condition of formaldehyde pollution has alerted people. Thus, it is essential for everyone to detect and degrade formaldehyde right now. [1] However, there is no simple and convenient way to detect and degrade formaldehyde. On the contrary, available methods are usually too complicated for the public with a great amount of drawbacks. For example, Spectrophotometry is limited by experiment conditions and Prices of chromatography equipment are usually high. [1][2][3] So we want to design biobricks to solve this problem by using microorganism.