Difference between revisions of "Team:Aix-Marseille/Integrated Practices/Industry"

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Platinum, for example, is used to create key components for a variety of medical devices, including pacemakers, catheters, stents, neuromodulation devices and implantable defibrillators. Platinum is also used in anticancer drugs such as cisplatin, carboplatin, and oxaliplatin. It is the properties of this precious metal that makes it the material of choice for many medical applications: its biocompatibility, inertness with the human body, durability, electrical conductivity and radiopacity. In 2015, a review described the role played by platinum-based drugs in our society and all of the future applications that will rise through the new technology such as functional genomics. <ref>http://erc.endocrinology-journals.org/content/22/4/R219 Apps et al., 2015</ref>
 
Platinum, for example, is used to create key components for a variety of medical devices, including pacemakers, catheters, stents, neuromodulation devices and implantable defibrillators. Platinum is also used in anticancer drugs such as cisplatin, carboplatin, and oxaliplatin. It is the properties of this precious metal that makes it the material of choice for many medical applications: its biocompatibility, inertness with the human body, durability, electrical conductivity and radiopacity. In 2015, a review described the role played by platinum-based drugs in our society and all of the future applications that will rise through the new technology such as functional genomics. <ref>http://erc.endocrinology-journals.org/content/22/4/R219 Apps et al., 2015</ref>
  
=Nanoparticle=
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In all domains, nanoparticles are an emergent subject. Throught their special abilities and properties, they will be a very powerfull tool for future experiments. In our process, we want to purify metals from plants or wastewater with siderophores, which are a kind of proteins. Thanks to this process, we will create platinum nanoparticles, that are a high valuable form of this metal.
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In all domains, nanoparticles are an emergent subject. Through their special abilities and properties, they will be a very powerful tool for future experiments Their main advantage is to have a very catalytic efficiency. As very tiny spheres the whole surface available for reaction are particularly large.   In our process, we want to purify metals from plants or wastewater with siderophores, which are biological molecules naturally secreted by bacteria. Thanks to this process, we will create platinum nanoparticles, that are a high valuable form of this metal. That is why our process is relevant and look to the future! Platinum nanoparticles probably will  be one of the most desired form of platinum in the next century...
  
 
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Revision as of 19:56, 19 October 2016