Difference between revisions of "Team:ShanghaitechChina/Demonstrate"

 
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We aimed to design a biofilm-interfaced artificial hydrogen-producing system, Solar Hunter, that harnesses the energy of sun light. Biofilm-anchored nanorods can efficiently convert photons to electrons, which seamlessly tap into the electron chain of engineered strain carrying FeFe hydrogenase gene cluster, thereby achieving high-efficiency hydrogen production. It is noteworthy that our system facilitates the recycling of the expensive nanorods as the biofilms were grown on easy-separation micro-beads to anchored NRs.  
 
We aimed to design a biofilm-interfaced artificial hydrogen-producing system, Solar Hunter, that harnesses the energy of sun light. Biofilm-anchored nanorods can efficiently convert photons to electrons, which seamlessly tap into the electron chain of engineered strain carrying FeFe hydrogenase gene cluster, thereby achieving high-efficiency hydrogen production. It is noteworthy that our system facilitates the recycling of the expensive nanorods as the biofilms were grown on easy-separation micro-beads to anchored NRs.  
 
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The demonstration starts from the hydrogen production assay of the system made of all the components, biofilm anchored CdS on microspheres and the strain expressing FeFe hydrogenase. Notably, our hydrogen production has shown great efficiency compared to some precursors using hydrogenase. This section demonstrates the hydrogen production by integrating biofilm-anchored NRs with strain harboring hydrogenase gene clusters. For a thorough description of what we have achieved, please refer to  <a href="https://2016.igem.org/Team:ShanghaitechChina/IBS">Integrative Bio-hydrogen System</a>.  <p></p>
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The demonstration starts from the hydrogen production assay of the system made of all the components, biofilm anchored CdS on microspheres and the strain expressing FeFe hydrogenase. Notably, our hydrogen production has shown great efficiency compared to some precursors using hydrogenase. This section demonstrates the hydrogen production by integrating biofilm-anchored NRs with strain harboring hydrogenase gene clusters. For a thorough description of what we have achieved, please refer to  <a href="https://2016.igem.org/Team:ShanghaitechChina/IBS">Integrative Biohydrogen System</a>.  <p></p>
 
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Latest revision as of 22:49, 19 October 2016

igem2016:ShanghaiTech