We propose a strategy to produce biocatalytic wastewater cleaning materials that incorporate microorganisms simultaneously removing organic and inorganic contaminants while creating electricity (or hydrocarbon fuel) for energy generation in support of a sustainable and portable system.Central to our work will be then encapsulation of dissimilatory metal reducing bacteria for energy generation on the anode of a microbial biofuel cell (MFC) . We have previously demonstrated both great stability and greater current densities produced Shewanella oneidensis when biofilms of this organism are immobilized on a carbon anode. 1While our published results indicate full operation for a week, one such device was active for a full 6 months in our laboratories, indicating the stability and functionality of such systems. While DMRBs are able to remove a plethora of organic compounds, including pesticides, inorganic compounds, such as ammonia, phosphate and heavy metals must also be removed to produce clean water. Immobilized algae have recently been shown to effectively remove phosphorous and nitrogen from wastewater. 2 An advantage of an encapsulated system is demonstrated by the immunity of this system to population fluctuation, the presence of other solids, or competing bacteria that frequently plague phosphate removal in particular.3 Such a system could be combined with, for example, Shewanella oneidensis in a second module and Geobacter sp. in a third, and used to produce a self-regererating carbon neutral electrical system. Alternatively, the Geobacter module could be replaced by a module containing an acetate/methanogen syntrophic community to generate methane.Other example modules include algae to remove heavy metals 4, Acinetobacter venetianus to remove oil spills 5, or pesticide remediating heterotrophs 6.Research areas for this program will include metabolic activity of constituent organisms upon encapsulation, optimization of the transport characteristics of the encapsulating silica and the integration of electrodes or other energy collection modalities.(1) Luckarift, H., Sizemore, S., Roy, J., Lau, C., Gupta, G., Atanassov, P., Johnson, G. Chem.Comm. 2010, 46, 6048. (2) Shi, J.; Padola, B.; Melkonian, M. Bioresource Tech 2014 154, 260.(3) Tu, Y.; Schuler, A. J. Environ Sci Technol 2013, 47, 3816.(4) Montiero, C. M.; Castro, P. M. L.; Makcata, F. X. Biotechnol Prog 2012, 28, 299.(5) Luckarift, H. R.; Sizemore, S. R.; Farrington, K. E.; Fulmer, P. A.; Biffinger, J. C.; Nadeau, L. J.; Johnson, G. R. Biotechnol Prog 2011, 27, 1580.(6) Nunez, O. C.; Lopes, A. R.; Manaia, C. M. Appl Microbiol Biotechnol 2013, 97, 10275.
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