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W2003715158 startingPage "2674" @default.
W2003715158 abstract "Two systems using bottom-up fabrication of molecular wires on an electrode surface are described. The first system involves films composed of linear and branched wires of metal complex oligomers, which were prepared using stepwise complexation of metal ions with bis- and tris-tpy (tpy = 2,2′:6′,2″-terpyridine) ligands, respectively, on tpy-terminated SAM on gold. This method allows the formation of desired numbers of polymer units and of desired sequences of hetero-metal structures in the polymer chain. The electron transport mechanism and kinetics for the redox reaction of the films of linear and branched oligomer wires analyzed by potential step chronoamperometry indicate that electron conduction occurs by successive electron hopping between neighboring redox sites within a molecular wire. The second system is an assembly of bio-conjugated materials to achieve the output of electrons directly from photosystem I (PSI) of thermophilic cyanobacteria to a gold nanoparticle on the gate of a field-effect transistor (FET) by bypassing the electron flow via a molecular wire. Photo-electrons generated by the irradiation of reconstituted PSI on the gate with 670–680 nm light were found to control the FET performance, which is sufficiently stable for use exceeding a period of 1 year." @default.
W2003715158 created "2016-06-24" @default.
W2003715158 creator A5062571416 @default.
W2003715158 creator A5081477502 @default.
W2003715158 creator A5081577133 @default.
W2003715158 creator A5089786787 @default.
W2003715158 date "2007-11-01" @default.
W2003715158 modified "2023-10-03" @default.
W2003715158 title "Construction of redox- and photo-functional molecular systems on electrode surface for application to molecular devices" @default.
W2003715158 cites W1544106408 @default.
W2003715158 cites W1636411849 @default.
W2003715158 cites W1862219797 @default.
W2003715158 cites W1882100918 @default.
W2003715158 cites W1966545431 @default.
W2003715158 cites W1968411365 @default.
W2003715158 cites W1970477005 @default.
W2003715158 cites W1972374059 @default.
W2003715158 cites W1972662704 @default.
W2003715158 cites W1974923472 @default.
W2003715158 cites W1975320379 @default.
W2003715158 cites W1976971700 @default.
W2003715158 cites W1977659002 @default.
W2003715158 cites W1982521325 @default.
W2003715158 cites W1986191283 @default.
W2003715158 cites W1989176041 @default.
W2003715158 cites W1989391716 @default.
W2003715158 cites W1993214618 @default.
W2003715158 cites W1997214537 @default.
W2003715158 cites W1999285884 @default.
W2003715158 cites W1999679119 @default.
W2003715158 cites W2001642418 @default.
W2003715158 cites W2002661845 @default.
W2003715158 cites W2006738579 @default.
W2003715158 cites W2007176314 @default.
W2003715158 cites W2010304869 @default.
W2003715158 cites W2019387169 @default.
W2003715158 cites W2019457112 @default.
W2003715158 cites W2019854716 @default.
W2003715158 cites W2020698859 @default.
W2003715158 cites W2021458657 @default.
W2003715158 cites W2022356902 @default.
W2003715158 cites W2024218463 @default.
W2003715158 cites W2024565336 @default.
W2003715158 cites W2028103813 @default.
W2003715158 cites W2028874167 @default.
W2003715158 cites W2030343629 @default.
W2003715158 cites W2032204764 @default.
W2003715158 cites W2033119052 @default.
W2003715158 cites W2037584270 @default.
W2003715158 cites W2041483077 @default.
W2003715158 cites W2042429437 @default.
W2003715158 cites W2043410034 @default.
W2003715158 cites W2047201288 @default.
W2003715158 cites W2049446816 @default.
W2003715158 cites W2052919242 @default.
W2003715158 cites W2054623873 @default.
W2003715158 cites W2056662114 @default.
W2003715158 cites W2059193801 @default.
W2003715158 cites W2059559745 @default.
W2003715158 cites W2062842673 @default.
W2003715158 cites W2065249770 @default.
W2003715158 cites W2065660456 @default.
W2003715158 cites W2084952370 @default.
W2003715158 cites W2086328394 @default.
W2003715158 cites W2087571434 @default.
W2003715158 cites W2091495025 @default.
W2003715158 cites W2092226069 @default.
W2003715158 cites W2092884504 @default.
W2003715158 cites W2094347064 @default.
W2003715158 cites W2094682831 @default.
W2003715158 cites W2105348198 @default.
W2003715158 cites W2112969083 @default.
W2003715158 cites W2116359332 @default.
W2003715158 cites W2123928776 @default.
W2003715158 cites W2124754096 @default.
W2003715158 cites W2128109411 @default.
W2003715158 cites W2141001024 @default.
W2003715158 cites W2143846196 @default.
W2003715158 cites W2156100614 @default.
W2003715158 cites W2161241792 @default.
W2003715158 cites W2164291082 @default.
W2003715158 cites W2175477024 @default.
W2003715158 cites W3005021223 @default.
W2003715158 cites W2054488005 @default.
W2003715158 doi "https://doi.org/10.1016/j.ccr.2007.04.002" @default.
W2003715158 hasPublicationYear "2007" @default.
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