The enzyme flavocytochrome c3 (fcc3), which catalyzes hydrogenation across a C═C double bond (fumarate to succinate), is used to carry out the fuel-forming reaction in an artificial photosynthesis system. When immobilized on dye-sensitized TiO2 nanoparticles, fcc3 catalyzes visible-light-driven succinate production in aqueous suspension. Solar-to-chemical conversion using neutral water as the oxidant is achieved with a photoelectrochemical cell comprising an fcc3-modified indium tin oxide cathode linked to a cobalt phosphate-modified BiVO4 photoanode. The results reinforce new directions in the area of artificial photosynthesis, in particular for solar-energy-driven synthesis of organic chemicals and commodities, moving away from simple fuels as target molecules.
Shewanella putrefaciens
,Titanium
,Water
,Tin Compounds
,Succinic Acid
,Succinate Dehydrogenase
,Cytochrome c Group
,Enzymes, Immobilized
,Electrodes
,Solar Energy
,Photosynthesis
,Catalysis
,Light
,Coloring Agents
,Nanoparticles
