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W2076759996 endingPage "429" @default.
W2076759996 startingPage "399" @default.
W2076759996 abstract "In this article the concept, the materials and the exploitation potential of a photosynthetic microbial electrochemical cell for the production of hydrogen driven by solar power are investigated. In a photosynthetic microbial electrochemical cell, which is based on photosynthetic microorganisms confined to an anode and heterotrophic bacteria confined to a cathode, water is split by bacteria hosted in the anode bioactive film. The generated electrons are conveyed through external “bio-appendages” developed by the bacteria to transparent nano-pillars made of indium tin oxide (ITO), Fluorine-doped tin oxide (FTO) or other conducting materials, and then transferred to the cathode. On the other hand, the generated protons diffuse to the cathode via a polymer electrolyte membrane, where they are reduced by the electrons by heterotrophic bacteria growing attached to a similar pillared structure as that envisaged for the anode and supplemented with a specific low cost substrate (e.g., organic waste, anaerobic digestion outlet). The generated oxygen is released to the atmosphere or stored, while the produced pure hydrogen leaves the electrode through the porous layers. In addition, the integration of the photosynthetic microbial electrochemical cell system with dark fermentation as acidogenic step of anaerobic digester, which is able to produce additional H2, and the use of microbial fuel cell, feed with the residues of dark fermentation (mainly volatile fatty acids), to produce the necessary extra-bias for the photosynthetic microbial electrochemical cell is here analyzed to reveal the potential benefits to this novel integrated technology." @default.
W2076759996 created "2016-06-24" @default.
W2076759996 creator A5001710254 @default.
W2076759996 creator A5047206421 @default.
W2076759996 creator A5064742250 @default.
W2076759996 date "2015-01-13" @default.
W2076759996 modified "2023-10-13" @default.
W2076759996 title "Development of a Photosynthetic Microbial Electrochemical Cell (PMEC) Reactor Coupled with Dark Fermentation of Organic Wastes: Medium Term Perspectives" @default.
W2076759996 cites W1508136156 @default.
W2076759996 cites W1568963183 @default.
W2076759996 cites W1748960176 @default.
W2076759996 cites W193110455 @default.
W2076759996 cites W1967318957 @default.
W2076759996 cites W1970004887 @default.
W2076759996 cites W1970377394 @default.
W2076759996 cites W1970476012 @default.
W2076759996 cites W1970614153 @default.
W2076759996 cites W1981295691 @default.
W2076759996 cites W1981521607 @default.
W2076759996 cites W1981848685 @default.
W2076759996 cites W1982633143 @default.
W2076759996 cites W1990614706 @default.
W2076759996 cites W1990655780 @default.
W2076759996 cites W1996736237 @default.
W2076759996 cites W1998433492 @default.
W2076759996 cites W2000029554 @default.
W2076759996 cites W2002063268 @default.
W2076759996 cites W2002701926 @default.
W2076759996 cites W2003542194 @default.
W2076759996 cites W2009160632 @default.
W2076759996 cites W2010299924 @default.
W2076759996 cites W2014191388 @default.
W2076759996 cites W2014435852 @default.
W2076759996 cites W2014497642 @default.
W2076759996 cites W2018226039 @default.
W2076759996 cites W2025335260 @default.
W2076759996 cites W2027310787 @default.
W2076759996 cites W2029965725 @default.
W2076759996 cites W2036828920 @default.
W2076759996 cites W2038463992 @default.
W2076759996 cites W2039241535 @default.
W2076759996 cites W2043970764 @default.
W2076759996 cites W2045935314 @default.
W2076759996 cites W2045949121 @default.
W2076759996 cites W2048130220 @default.
W2076759996 cites W2048226110 @default.
W2076759996 cites W2049955725 @default.
W2076759996 cites W2050943927 @default.
W2076759996 cites W2055862886 @default.
W2076759996 cites W2057833130 @default.
W2076759996 cites W2065924558 @default.
W2076759996 cites W2069370192 @default.
W2076759996 cites W2074502419 @default.
W2076759996 cites W2074899964 @default.
W2076759996 cites W2075240812 @default.
W2076759996 cites W2076636509 @default.
W2076759996 cites W2078403254 @default.
W2076759996 cites W2080238744 @default.
W2076759996 cites W2081870324 @default.
W2076759996 cites W2081949880 @default.
W2076759996 cites W2082990330 @default.
W2076759996 cites W2084430002 @default.
W2076759996 cites W2087095606 @default.
W2076759996 cites W2090899924 @default.
W2076759996 cites W2094255943 @default.
W2076759996 cites W2095168539 @default.
W2076759996 cites W2098605538 @default.
W2076759996 cites W2104173873 @default.
W2076759996 cites W2109833906 @default.
W2076759996 cites W2112008117 @default.
W2076759996 cites W2112216401 @default.
W2076759996 cites W2113402087 @default.
W2076759996 cites W2113787438 @default.
W2076759996 cites W2118951686 @default.
W2076759996 cites W2119251500 @default.
W2076759996 cites W2124043346 @default.
W2076759996 cites W2139417409 @default.
W2076759996 cites W2139696578 @default.
W2076759996 cites W2144465161 @default.
W2076759996 cites W2144679597 @default.
W2076759996 cites W2144846202 @default.
W2076759996 cites W2147077087 @default.
W2076759996 cites W2147290521 @default.
W2076759996 cites W2149407847 @default.
W2076759996 cites W2153521265 @default.
W2076759996 cites W2156366019 @default.
W2076759996 cites W2159112923 @default.
W2076759996 cites W2160549245 @default.
W2076759996 cites W2167265344 @default.
W2076759996 cites W2169224905 @default.
W2076759996 cites W3144873443 @default.
W2076759996 cites W4250559680 @default.
W2076759996 cites W4376848311 @default.
W2076759996 doi "https://doi.org/10.3390/en8010399" @default.
W2076759996 hasPublicationYear "2015" @default.
W2076759996 type Work @default.
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