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      Photoinduced energy and electron transfer in 1,8-naphthalimide–corrole dyads

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          Crystal structure of an integral membrane light-harvesting complex from photosynthetic bacteria

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            Photoinduced electron transfer in supramolecular systems for artificial photosynthesis

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              Mimicking Photosynthetic Solar Energy Transduction

              Increased understanding of photosynthetic energy conversion and advances in chemical synthesis and instrumentation have made it possible to create artificial nanoscale devices and semibiological hybrids that carry out many of the functions of the natural process. Artificial light-harvesting antennas can be synthesized and linked to artificial reaction centers that convert excitation energy to chemical potential in the form of long-lived charge separation. Artificial reaction centers can form the basis for molecular-level optoelectronic devices. In addition, they may be incorporated into the lipid bilayer membranes of artificial vesicles, where they function as components of light-driven proton pumps that generate transmembrane proton motive force. The proton gradient may be used to synthesize adenosine triphosphate via an ATP synthase enzyme. The overall energy transduction process in the liposomal system mimics the solar energy conversion system of a photosynthetic bacterium. The results of this research illustrate the advantages of designing functional nanoscale devices based on biological paradigms.
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                Author and article information

                Journal
                NJCHE5
                New J. Chem.
                New J. Chem.
                Royal Society of Chemistry (RSC)
                1144-0546
                1369-9261
                2007
                2007
                : 31
                : 2
                : 247-259
                Article
                10.1039/B613640K
                76d641e1-442a-4f17-a9bd-cc712395a349
                © 2007
                History

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