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    Bio‐inspired Catalyst‐Modified Photocathode for Bias‐Free Photoelectrochemical NADH Regeneration

    New search for: Zhao, Ziqi
    New search for: Wu, Yizhou
    New search for: Liu, Chang
    New search for: Li, Yingzheng
    New search for: Gong, Chen
    New search for: Ning, Hongxia
    New search for: Zhang, Peili
    New search for: Li, Fei
    New search for: Sun, Licheng
    New search for: Li, Fusheng

    Cofactors such as nicotinamide adenine dinucleotide (NADH) and its phosphorylated form (NADPH) play a crucial role in natural enzyme‐catalyzed reactions for the synthesis of chemicals. However, the stoichiometric supply of NADH for artificial synthetic processes is uneconomical. Here, inspired by the process of cofactor NADPH regeneration in photosystem I (PSI), catalyst‐modified photocathodes are constructed on the surface of polythiophene‐based semiconductors (PTTH) via self‐assembly for photoelectrochemical catalytic NADH regeneration. With the assistance of viologen (vi2+) electron transfer mediators (similar function as Ferredoxin in PSI) linked to the [Rh(Cp*)(bpy)] catalyst, the Rh‐vi2+@PTTH photocathode exhibits higher photocurrent density (−665 µA cm−2) with a high apparent turnover frequency (TOF, 168.4 h−1) under a relatively positive potential (0.0 V vs RHE). In addition, through holistic functional mimics of the photosystem, a tandem photoelectrochemical cell is constructed by assembling a CoPi@BiVO4 photoanode (artificial photosystem II, PSII) with the Rh‐vi2+@PTTH photocathode. This system achieves a production rate of 42.5 µm h−1 cm−2 and a TOF of 179.3 h−1 without an externally applied bias for NADH regeneration. The photo‐generated NADH is directly employed to assist glutamate dehydrogenase (GDH) in the catalytic conversion of α‐ketoglutarate to L‐glutamate. This study presents a novel strategic approach for constructing bias‐free photoelectrochemical NADH regeneration systems.

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    Bio‐inspired Catalyst‐Modified Photocathode for Bias‐Free Photoelectrochemical NADH Regeneration

    New search for: Zhao, Ziqi
    New search for: Wu, Yizhou
    New search for: Liu, Chang
    New search for: Li, Yingzheng
    New search for: Gong, Chen
    New search for: Ning, Hongxia
    New search for: Zhang, Peili
    New search for: Li, Fei
    New search for: Sun, Licheng
    New search for: Li, Fusheng

    Cofactors such as nicotinamide adenine dinucleotide (NADH) and its phosphorylated form (NADPH) play a crucial role in natural enzyme‐catalyzed reactions for the synthesis of chemicals. However, the stoichiometric supply of NADH for artificial synthetic processes is uneconomical. Here, inspired by the process of cofactor NADPH regeneration in photosystem I (PSI), catalyst‐modified photocathodes are constructed on the surface of polythiophene‐based semiconductors (PTTH) via self‐assembly for photoelectrochemical catalytic NADH regeneration. With the assistance of viologen (vi2+) electron transfer mediators (similar function as Ferredoxin in PSI) linked to the [Rh(Cp*)(bpy)] catalyst, the Rh‐vi2+@PTTH photocathode exhibits higher photocurrent density (−665 µA cm−2) with a high apparent turnover frequency (TOF, 168.4 h−1) under a relatively positive potential (0.0 V vs RHE). In addition, through holistic functional mimics of the photosystem, a tandem photoelectrochemical cell is constructed by assembling a CoPi@BiVO4 photoanode (artificial photosystem II, PSII) with the Rh‐vi2+@PTTH photocathode. This system achieves a production rate of 42.5 µm h−1 cm−2 and a TOF of 179.3 h−1 without an externally applied bias for NADH regeneration. The photo‐generated NADH is directly employed to assist glutamate dehydrogenase (GDH) in the catalytic conversion of α‐ketoglutarate to L‐glutamate. This study presents a novel strategic approach for constructing bias‐free photoelectrochemical NADH regeneration systems.

    Access

    Download

    Bio‐inspired Catalyst‐Modified Photocathode for Bias‐Free Photoelectrochemical NADH Regeneration

    New search for: Zhao, Ziqi
    New search for: Wu, Yizhou
    New search for: Liu, Chang
    New search for: Li, Yingzheng
    New search for: Gong, Chen
    New search for: Ning, Hongxia
    New search for: Zhang, Peili
    New search for: Li, Fei
    New search for: Sun, Licheng
    New search for: Li, Fusheng

    Cofactors such as nicotinamide adenine dinucleotide (NADH) and its phosphorylated form (NADPH) play a crucial role in natural enzyme‐catalyzed reactions for the synthesis of chemicals. However, the stoichiometric supply of NADH for artificial synthetic processes is uneconomical. Here, inspired by the process of cofactor NADPH regeneration in photosystem I (PSI), catalyst‐modified photocathodes are constructed on the surface of polythiophene‐based semiconductors (PTTH) via self‐assembly for photoelectrochemical catalytic NADH regeneration. With the assistance of viologen (vi2+) electron transfer mediators (similar function as Ferredoxin in PSI) linked to the [Rh(Cp*)(bpy)] catalyst, the Rh‐vi2+@PTTH photocathode exhibits higher photocurrent density (−665 µA cm−2) with a high apparent turnover frequency (TOF, 168.4 h−1) under a relatively positive potential (0.0 V vs RHE). In addition, through holistic functional mimics of the photosystem, a tandem photoelectrochemical cell is constructed by assembling a CoPi@BiVO4 photoanode (artificial photosystem II, PSII) with the Rh‐vi2+@PTTH photocathode. This system achieves a production rate of 42.5 µm h−1 cm−2 and a TOF of 179.3 h−1 without an externally applied bias for NADH regeneration. The photo‐generated NADH is directly employed to assist glutamate dehydrogenase (GDH) in the catalytic conversion of α‐ketoglutarate to L‐glutamate. This study presents a novel strategic approach for constructing bias‐free photoelectrochemical NADH regeneration systems.

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    Title:

    Bio‐inspired Catalyst‐Modified Photocathode for Bias‐Free Photoelectrochemical NADH Regeneration

    Contributors:

    Zhao, Ziqi (author) / Wu, Yizhou (author) / Liu, Chang (author) / Li, Yingzheng (author) / Gong, Chen (author) / Ning, Hongxia (author) / Zhang, Peili (author) / Li, Fei (author) / Sun, Licheng (author) / Li, Fusheng (author)

    Published in:

    Advanced Science ; 12

    Publication date:

    2025-02-01

    Size:

    10 pages

    ISSN:

    2198-3844

    DOI:

    https://doi.org/10.1002/advs.202413668

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    photosynthesis , NADH regeneration , photocathode , bio‐inspired , catalyst‐modification

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