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W2079235790 endingPage "135" @default.
W2079235790 startingPage "124" @default.
W2079235790 abstract "The optical behavior of an organized dye assembly is different from that of the isolated dye; this difference is explained using molecular exciton theory. The theory predicts that mutual orientation, the number of dyes in the cluster, and combinations of different dyes should display given characteristic spectroscopic behaviors due to coherent interactions. Comparison of theoretical predictions with experimental results has been limited so far. One of the reasons is the absence of a rigid and well-organized system that can control the orientation and size of the dye assembly. Recently, the DNA duplex has been used to assemble chromophores in a programmed manner. Use of DNA allows organized dye assembly with a given size and particular orientation. In this review, we evaluate the spectroscopic behavior of the H-type aggregate based on molecular exciton theory and compare it with actual dye assembly with DNA duplex. Furthermore, we demonstrate the importance of coherent interactions on the observed optical properties of dyes assembled in a DNA duplex." @default.
W2079235790 created "2016-06-24" @default.
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W2079235790 date "2012-06-01" @default.
W2079235790 modified "2023-10-18" @default.
W2079235790 title "Coherent interactions of dyes assembled on DNA" @default.
W2079235790 cites W1942388687 @default.
W2079235790 cites W1950364705 @default.
W2079235790 cites W1965291648 @default.
W2079235790 cites W1969796318 @default.
W2079235790 cites W1979238507 @default.
W2079235790 cites W1980255005 @default.
W2079235790 cites W1980631720 @default.
W2079235790 cites W1982155534 @default.
W2079235790 cites W1983175241 @default.
W2079235790 cites W1985489376 @default.
W2079235790 cites W1994655207 @default.
W2079235790 cites W2004895407 @default.
W2079235790 cites W2005903458 @default.
W2079235790 cites W2008304053 @default.
W2079235790 cites W2008870170 @default.
W2079235790 cites W2013566250 @default.
W2079235790 cites W2013631468 @default.
W2079235790 cites W2015177368 @default.
W2079235790 cites W2017627877 @default.
W2079235790 cites W2022727779 @default.
W2079235790 cites W2026710381 @default.
W2079235790 cites W2027583545 @default.
W2079235790 cites W2027964353 @default.
W2079235790 cites W2030601151 @default.
W2079235790 cites W2033923658 @default.
W2079235790 cites W2034078366 @default.
W2079235790 cites W2034325171 @default.
W2079235790 cites W2040659601 @default.
W2079235790 cites W2042584758 @default.
W2079235790 cites W2043765515 @default.
W2079235790 cites W2046276209 @default.
W2079235790 cites W2051206787 @default.
W2079235790 cites W2051529325 @default.
W2079235790 cites W2052761897 @default.
W2079235790 cites W2054295169 @default.
W2079235790 cites W2055488128 @default.
W2079235790 cites W2055662955 @default.
W2079235790 cites W2060594928 @default.
W2079235790 cites W2063818175 @default.
W2079235790 cites W2064633591 @default.
W2079235790 cites W2071817064 @default.
W2079235790 cites W2072046923 @default.
W2079235790 cites W2079232070 @default.
W2079235790 cites W2079960520 @default.
W2079235790 cites W2086110091 @default.
W2079235790 cites W2089487735 @default.
W2079235790 cites W2089864220 @default.
W2079235790 cites W2092899663 @default.
W2079235790 cites W2094517427 @default.
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W2079235790 cites W2129839073 @default.
W2079235790 cites W2143273133 @default.
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W2079235790 cites W2152893165 @default.
W2079235790 cites W2159402811 @default.
W2079235790 cites W2160620064 @default.
W2079235790 cites W2949111335 @default.
W2079235790 doi "https://doi.org/10.1016/j.jphotochemrev.2012.04.002" @default.
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