Biomod/2013/NanoUANL

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==FALTA CAMBIAR EL VIDEO==
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<span style="font-family:trebuchet ms,helvetica,sans-serif;"><span style="font-size: 16px;"><strong>Greetings!</strong></span></span></p>
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<span style="font-size:14px;"><span style="font-family: trebuchet ms,helvetica,sans-serif;">The NanoUANL team presents a model for synthesis of silver nanoparticle with specific dimensions within a viral capsid, using CSTR modeling (Continuous-Stirred Tank Reactor) and single-enzyme confined kinetics. We also expand on the importance of mathematics in nanoscale design, and the limitations of computer analysis.</span></span></p>
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&nbsp;</p>
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<span style="font-family:trebuchet ms,helvetica,sans-serif;"><span style="font-size: 16px;"><strong>Summary</strong></span></span></p>
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<span style="font-size:14px;"><span style="font-family: trebuchet ms,helvetica,sans-serif;">An empty modified viral capsid, from the plant virus CCMV, was used as a container for horseradish peroxidase. Pores along the container permit only small molecules/particles to enter and exit the container, and flow is affected by an interior negative charge. Enzymatic activity with H202 releases electrons, which are accepted by silver ions in the solution. These ions are deposited when they are reduced from Ag (I) to Ag (0), and begin to nucleate, forming a nanoparticle within the inside of the container.</span></span></p>
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<img alt="" height="90" src="http://openwetware.org/images/3/32/UANLHomeFCFM.jpg" width="92" /><span _fck_bookmark="1" style="display: none;">&nbsp;</span><img alt="" height="92" src="http://openwetware.org/images/9/9e/UANLHomeFCQ.jpg" width="94" /><span _fck_bookmark="1" style="display: none;">&nbsp;</span><span style="font-size:14px;"><span style="font-family: trebuchet ms,helvetica,sans-serif;"><img alt="" height="91" src="http://openwetware.org/images/9/97/UANLHomeFCB.jpg" width="91" /></span></span></p>
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Revision as of 15:18, 26 October 2013

UANL_Banner2.png




Greetings!

The NanoUANL team presents a model for synthesis of silver nanoparticle with specific dimensions within a viral capsid, using CSTR modeling (Continuous-Stirred Tank Reactor) and single-enzyme confined kinetics. We also expand on the importance of mathematics in nanoscale design, and the limitations of computer analysis.

 

Summary

An empty modified viral capsid, from the plant virus CCMV, was used as a container for horseradish peroxidase. Pores along the container permit only small molecules/particles to enter and exit the container, and flow is affected by an interior negative charge. Enzymatic activity with H202 releases electrons, which are accepted by silver ions in the solution. These ions are deposited when they are reduced from Ag (I) to Ag (0), and begin to nucleate, forming a nanoparticle within the inside of the container.

 

  

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