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

(Biosorption)
(Biosorption)
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The aim of its step is the conversion of platinum into its final processed form: nanoparticles.  
 
The aim of its step is the conversion of platinum into its final processed form: nanoparticles.  
  
[[Team:Aix-Marseille/Integrated_Practices/Process#Glossary|Biosorption]] can be performed along biological structures since biologic components are known to be excellent sorbents. We planned to perform biosorption along a flagella. Indeed, metallic ions can be sorbed along flagella <ref>Deplanche and al., 2008 http://onlinelibrary.wiley.com.gate1.inist.fr/doi/10.1002/bit.21966/epdf</ref> thus enhancing concentrations. Moreover this step will form nanoparticles because of the reducing power of biological molecules, especially amines contained in proteins is supposed enough to convert ions into reduced (solid) particles. Optimization experiments will determine if this reducing power is sufficient to perform biosorption. If not, a external reducing power could be brought, i.e. by bubbling gaseous hydrogen in the medium.   
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[[Team:Aix-Marseille/Integrated_Practices/Process#Glossary|Biosorption]] can be performed along biological structures since biologic components are known to be excellent sorbents. We planned to perform biosorption along a flagella. Indeed, metallic ions can be sorbed along flagella <ref>Deplanche and al., 2008 http://www.ncbi.nlm.nih.gov/pubmed/18819156</ref> thus enhancing concentrations. Moreover this step will form nanoparticles because of the reducing power of biological molecules, especially amines contained in proteins is supposed enough to convert ions into reduced (solid) particles. Optimization experiments will determine if this reducing power is sufficient to perform biosorption. If not, a external reducing power could be brought, i.e. by bubbling gaseous hydrogen in the medium.   
  
 
Experiments should allow to determine which one of the flagella from either ''Escherichia coli'' or from ''Desulfovibrio desulfuricans'' is the best candidate for biosorption.  
 
Experiments should allow to determine which one of the flagella from either ''Escherichia coli'' or from ''Desulfovibrio desulfuricans'' is the best candidate for biosorption.  

Revision as of 19:03, 24 September 2016