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A Single Organoiridium Complex Generating Highly Active Catalysts for both Water Oxidation and NAD+/NADH Transformations

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The complex [Cp*Ir(pica)Cl] (1; pica = picolinamidate = κ2-pyridine-2-carboxamide) was found to be an effective catalyst for both water oxidation to molecular oxygen and NAD+/NADH transformations, which are the key… Click to show full abstract

The complex [Cp*Ir(pica)Cl] (1; pica = picolinamidate = κ2-pyridine-2-carboxamide) was found to be an effective catalyst for both water oxidation to molecular oxygen and NAD+/NADH transformations, which are the key reactions of light-dependent natural photosynthesis. In particular, 1 exhibits high activity in water oxidation driven by CAN and NaIO4. With the former, the initial TOF exceeds that of [Cp*Ir(pic)Cl] (2; pic = picolinate = κ2-pyridine-2-carboxylate), which is the fastest iridium catalyst reported to date, whereas with NaIO4 it compares well with the best catalysts. 1 exhibits top performances also in the hydrogenation of NAD+ with HCOOK, leading to the regiospecific formation of 1,4-NADH (pH 7) with TOF = 143 h–1, which is about 3 times higher than the previous highest value (54 h–1) reported for [Cp*Ir(4-(1H-pyrazol-1-yl-κN2)benzoic acid)(H2O)]SO4 (3). The activity seems to be critically affected by the presence of the NH functionality, as indicated by its drop of about 1 order of magnitude w...

Keywords: nad nadh; nadh transformations; water; water oxidation; single organoiridium

Journal Title: ACS Catalysis
Year Published: 2017

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