Difference between revisions of "Team:CHINA CD UESTC/Description"
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− | In the EBFC, we found two high-efficiency oxidases, glucose oxidase and laccase, which | + | In the EBFC, we found two high-efficiency oxidases, glucose oxidase and laccase, which could be used in anode region and cathode region respectively. At the same time, we learned that laccase was also involved in the degradation of wide range industrial pollutants. Thus, those wastewater could be used to produce electricity by linking laccase to the cathode in our EBFC. For the purpose of visualizing the location and concentration of laccase, we combined RFP with laccase. After that, we designed a way of enriching laccase on the cathode--using magnetosomes(Figure 1)! |
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Latest revision as of 10:22, 18 September 2015
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DESCRIPTION
Do you know how to solve energy crisis utilizing biological methods? Have you ever heard about how to construct a enzymatic biofuel cell (EBFC)? Nothing is too strange in the nature. There are many special properties of bacteria in nature such as producing electricity, being attracted by magnet. Please read this page.