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W2890116901 abstract "Abstract From the view point of green chemistry, CO 2 utilization technologies with solar energy including the photoredox system have been received a lot of attention. As one of them, photoredox system containing a photosensitizer and a catalyst catalyzing a reaction of a carbon–carbon bond formation from CO 2 as a feed stock were constructed. In a recent study, we reported the visible light-induced malate (C4 compound) production from pyruvate (C3 compound) and CO 2 due to carbon–carbon bond formation with the system consisting an electron donor, a photosensitizer, diphenylviologen (PV 2+ ) derivative as an electron mediator in the presence of malic enzyme (ME). However, the interaction between a photosensitizer and PV 2+ derivative has not been clarified yet. In this study, water-soluble PV 2+ derivative, 1,1′-bis( p -sulfonatophenyl)-4,4′-bipyridinium salt (PSV 2+ ) was synthesized, and its electro-, photochemical properties were evaluated. Moreover, the photoredox properties of PSV 2+ with water-soluble Zn porphyrin were studied using fluorescence spectroscopy and steady state irradiation. The fluorescence of Zn porphyrin was quenched by PSV 2+ and the two-electron reduced form of PSV 2+ were produced with Zn porphyrin with steady state irradiation. In addition, reaction solution containing triethanolamine, tetraphenylporphyrin tetrasulfonate, pyruvate, ME, Mg 2+ and PSV 2+ in CO 2 saturated bis-tris buffer (pH 7.4) was irradiated with visible light, the oxaloacetate and malate were produced. This result indicates that PSV 2+ is an efficient electron mediator in the visible light-induced redox system for carbon–carbon bond formation with ME from CO 2 as a feedstock." @default.
W2890116901 created "2018-09-27" @default.
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W2890116901 date "2018-09-03" @default.
W2890116901 modified "2023-10-17" @default.
W2890116901 title "Visible light-induced reduction system of diphenylviologen derivative with water-soluble porphyrin for biocatalytic carbon–carbon bond formation from CO2" @default.
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W2890116901 doi "https://doi.org/10.1515/pac-2018-0402" @default.
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