In photosynthesis, four electrons and four protons taken from water in photosystem II (PSII) are used to reduce NAD(P) to produce NAD(P)H in photosystem I (PSI), which is the most important reductant to reduce CO. Despite extensive efforts to mimic photosynthesis, artificial photosynthesis to produce NAD(P)H using water electron and proton sources has yet to be achieved. Herein, we report the photocatalytic reduction of NAD(P) to NAD(P)H and its analogues in a molecular model of PSI, which is combined with water oxidation in a molecular model of PSII. Photoirradiation of a toluene/trifluoroethanol (TFE)/borate buffer aqueous solution of hydroquinone derivatives (X-QH), 9-mesityl-10-methylacridinium ion, cobaloxime, and NAD(P) (PSI model) resulted in the quantitative and regioselective formation of NAD(P)H and -benzoquinone derivatives (X-Q). X-Q was reduced to X-QH, accompanied by the oxidation of water to dioxygen under the photoirradiation of a toluene/TFE/borate buffer aqueous solution of [(N4Py)Fe] (PSII model). The PSI and PSII models were combined using two glass membranes and two liquid membranes to produce NAD(P)H using water as an electron and proton source with the turnover number (TON) of 54. To the best of our knowledge, this is the first time to achieve the stoichiometry of photosynthesis, photocatalytic reduction of NAD(P) by water to produce NAD(P)H and O.

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http://dx.doi.org/10.1021/jacs.3c10369DOI Listing

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