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W2042257796 endingPage "10510" @default.
W2042257796 startingPage "10501" @default.
W2042257796 abstract "A flavin analogue (riboflavin-2‘,3‘,4‘,5‘-tetraacetate, Fl) forms the 1:1 and 1:2 complexes with rare-earth metal ions. The largest formation constants K1 and K2 for the 1:1 and 1:2 complexes between Fl and Sc3+ are determined as K1 = 3.1 × 104 M-1 and K2 = 1.4 × 103 M-1, respectively. The complexation of Fl with rare-earth metal ions results in blue shifts of the fluorescence maximum, shortening of the fluorescence lifetime, and more importantly the change in the lowest excited state from the n,π* triplet state of Fl to the π,π* singlet states of Fl−rare-earth metal ion complexes as indicated by the disappearance of the triplet−triplet (T−T) absorption spectrum of Fl by the complexation with metal ions. The strong complex formation between Fl and rare-earth metal ions enhances the oxidizing ability of the excited state of Fl as indicated by the significant acceleration in the fluorescence quenching rates of Fl−rare earth metal ion complexes via electron transfer from electron donors (e.g., alkylbenzenes) as compared to those of uncomplexed Fl. The one-electron reduction potential of the singlet excited state of the 1:2 complex between Fl and Sc3+, 1(Fl−2Sc3+)* (* denotes the excited state), is positively shifted by 780 mV as compared to 1Fl*. Such a remarkable enhancement of the redox reactivity of 1(Fl−2Sc3+)* as compared to that of 1Fl* makes it possible to oxidize efficiently p-chlorobenzyl alcohol to p-chlorobenzaldehyde by 1(Fl−2Sc3+)*, although no photooxidation of p-chlorobenzyl alcohol by Fl occurred in deaerated MeCN. The quantum yield for the photooxidation of p-chlorobenzyl alcohol by Fl−2Sc3+ is the largest among various Fl−metal ion complexes. A comparison of the observed rate constant derived from the dependence of the quantum yield on the concentration of p-chlorobenzyl alcohol with the fluorescence quenching rate constant by electron transfer from the alcohol and the direct detection of radical intermediates reveal that the photooxidation proceeds via electron transfer from p-chlorobenzyl alcohol to 1(Fl−2Sc3+)*. Under an atmospheric pressure of oxygen, the photooxidation of p-methoxybenzyl alcohol by oxygen proceeds efficiently in the presence of Fl−Lu3+ which acts as an efficient photocatalyst. No photodegradation was observed in the case of the Fl−Lu3+ complex, whereas the facile photodegradation of Fl−Mg2+ has precluded the efficient photocatalytic oxidation of the alcohol by oxygen." @default.
W2042257796 created "2016-06-24" @default.
W2042257796 creator A5005400068 @default.
W2042257796 creator A5006518662 @default.
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W2042257796 creator A5066193981 @default.
W2042257796 creator A5080787029 @default.
W2042257796 creator A5084268749 @default.
W2042257796 date "2001-10-27" @default.
W2042257796 modified "2023-10-04" @default.
W2042257796 title "Efficient Catalysis of Rare-Earth Metal Ions in Photoinduced Electron-Transfer Oxidation of Benzyl Alcohols by a Flavin Analogue" @default.
W2042257796 cites W1571291564 @default.
W2042257796 cites W1964789752 @default.
W2042257796 cites W1966413779 @default.
W2042257796 cites W1968255170 @default.
W2042257796 cites W1973012870 @default.
W2042257796 cites W1973425732 @default.
W2042257796 cites W1974814614 @default.
W2042257796 cites W1975819067 @default.
W2042257796 cites W1977112366 @default.
W2042257796 cites W1977623369 @default.
W2042257796 cites W1981625343 @default.
W2042257796 cites W1984214955 @default.
W2042257796 cites W1984798563 @default.
W2042257796 cites W1984879334 @default.
W2042257796 cites W1988093818 @default.
W2042257796 cites W1993165015 @default.
W2042257796 cites W1997651659 @default.
W2042257796 cites W2000566905 @default.
W2042257796 cites W2002372650 @default.
W2042257796 cites W2002532704 @default.
W2042257796 cites W2004005295 @default.
W2042257796 cites W2004650291 @default.
W2042257796 cites W2005105191 @default.
W2042257796 cites W2011053903 @default.
W2042257796 cites W2011428633 @default.
W2042257796 cites W2011965703 @default.
W2042257796 cites W2012574617 @default.
W2042257796 cites W2014955686 @default.
W2042257796 cites W2015341552 @default.
W2042257796 cites W2020080272 @default.
W2042257796 cites W2021033371 @default.
W2042257796 cites W2028198718 @default.
W2042257796 cites W2029668969 @default.
W2042257796 cites W2029784132 @default.
W2042257796 cites W2031686256 @default.
W2042257796 cites W2032218899 @default.
W2042257796 cites W2033448385 @default.
W2042257796 cites W2036185563 @default.
W2042257796 cites W2036888710 @default.
W2042257796 cites W2038150180 @default.
W2042257796 cites W2038155117 @default.
W2042257796 cites W2039805282 @default.
W2042257796 cites W2043748628 @default.
W2042257796 cites W2045078525 @default.
W2042257796 cites W2047321413 @default.
W2042257796 cites W2048646913 @default.
W2042257796 cites W2049510780 @default.
W2042257796 cites W2056014127 @default.
W2042257796 cites W2056869575 @default.
W2042257796 cites W2057018570 @default.
W2042257796 cites W2064443917 @default.
W2042257796 cites W2068080147 @default.
W2042257796 cites W2069765111 @default.
W2042257796 cites W2070088397 @default.
W2042257796 cites W2071508136 @default.
W2042257796 cites W2077466875 @default.
W2042257796 cites W2078494104 @default.
W2042257796 cites W2085557195 @default.
W2042257796 cites W2089497711 @default.
W2042257796 cites W2098205015 @default.
W2042257796 cites W2098275667 @default.
W2042257796 cites W2140188135 @default.
W2042257796 cites W2143981217 @default.
W2042257796 cites W2145773666 @default.
W2042257796 cites W2149063102 @default.
W2042257796 cites W2154231855 @default.
W2042257796 cites W2157623089 @default.
W2042257796 cites W2160489485 @default.
W2042257796 cites W2167891711 @default.
W2042257796 cites W2168050317 @default.
W2042257796 cites W2604657113 @default.
W2042257796 cites W2895408343 @default.
W2042257796 cites W2949593274 @default.
W2042257796 cites W2949922586 @default.
W2042257796 cites W2950279910 @default.
W2042257796 cites W2951507142 @default.
W2042257796 cites W2951986882 @default.
W2042257796 cites W2952639395 @default.
W2042257796 cites W2953148019 @default.
W2042257796 cites W2953387851 @default.
W2042257796 cites W3005078726 @default.
W2042257796 cites W4244994898 @default.
W2042257796 cites W4246359913 @default.
W2042257796 doi "https://doi.org/10.1021/jp012709d" @default.
W2042257796 hasPublicationYear "2001" @default.
W2042257796 type Work @default.
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