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Another point to note between our two systems is that in the process of hydrogen generation without biofilm-anchored CdS, a stir bar with a necessary speed of 800 RPM was needed. But in Figure 2, the system with biofilm, a stir bar was not used. It is likely because the aggregates of NR have a bigger chance in colliding with <em>E. coli</em> to transfer electrons.<p></p> | Another point to note between our two systems is that in the process of hydrogen generation without biofilm-anchored CdS, a stir bar with a necessary speed of 800 RPM was needed. But in Figure 2, the system with biofilm, a stir bar was not used. It is likely because the aggregates of NR have a bigger chance in colliding with <em>E. coli</em> to transfer electrons.<p></p> | ||
− | <b> b) Calculating the rate of our integrated system.</b><p></p> | + | <b> b) Calculating the hydrogen evolution rate of our integrated system.</b><p></p> |
We are particularly interested in learning what our efficiency is compared to one study reported this year. See reference 1. In calculating the efficiency, we chose the data from the first hydrogen production period. We converted the data in mV into umol/L. The standard curve is provided by the lab who supervised our assay apparatus. | We are particularly interested in learning what our efficiency is compared to one study reported this year. See reference 1. In calculating the efficiency, we chose the data from the first hydrogen production period. We converted the data in mV into umol/L. The standard curve is provided by the lab who supervised our assay apparatus. | ||
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<h1 align="center" >Conclusion</h1> | <h1 align="center" >Conclusion</h1> | ||
+ | <b>Conclusion</b><p></p> | ||
+ | In conclusion, biofilm-anchored nanorods and hydrogenase work great together for producing hydrogen. Although the system is not as efficient as the one with nanorods flow-freely due to some possible reasons as the size of microsphere, the system still achieved a fairly good hydrogen production efficiency. We therefore propose this model as our final model, although further optimization of the system is still under way, including deciding on the optimized material and size the microsphere for biofilm growth. Meanwhile, our SpyCatcher on the CsgA allows the binding of other proteins that may significantly improve our system. This will lead to our future work. Stay tuned, or you may want to join us in this project as well: Contact us: zhongchao@shanghaitech.edu.cn Investor are also welcome.<p></p> | ||
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Revision as of 14:55, 19 October 2016