One Model, Two Enzymes: Activation of Hydrogen and Carbon Monoxide

Seiji Ogo; Yuki Mori; Tatsuya Ando; Takahiro Matsumoto; Takeshi Yatabe; Ki Seok Yoon; Hideki Hayashi; Masashi Asano

doi:10.1002/anie.201704864

One Model, Two Enzymes: Activation of Hydrogen and Carbon Monoxide

Seiji Ogo, Yuki Mori, Tatsuya Ando, Takahiro Matsumoto, Takeshi Yatabe, Ki Seok Yoon, Hideki Hayashi, Masashi Asano

Research output: Contribution to journal › Article › peer-review

23 Citations (Scopus)

Abstract

The ability to catalyze the oxidation of both H₂ and CO in one reaction pot would be a major boon to hydrogen technology since CO is a consistent contaminant of H₂ supplies. Here, we report just such a catalyst, with the ability to catalyze the oxidation of either or both H₂ and CO, based on the pH value. This catalyst is based on a NiIr core that mimics the chemical function of [NiFe]hydrogenase in acidic media (pH 4–7) and carbon monoxide dehydrogenase in basic media (pH 7–10). We have applied this catalyst in a demonstration fuel cell using H₂, CO, and H₂/CO (1/1) feeds as fuels for oxidation at the anode. The power density of the fuel cell depends on the pH value in the media of the fuel cell and shows a similar pH dependence in a flask. We have isolated and characterized all intermediates in our proposed catalytic cycles.

Original language	English
Pages (from-to)	9723-9726
Number of pages	4
Journal	Angewandte Chemie - International Edition
Volume	56
Issue number	33
DOIs	https://doi.org/10.1002/anie.201704864
Publication status	Published - Aug 7 2017

All Science Journal Classification (ASJC) codes

Catalysis
Chemistry(all)

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abstract = "The ability to catalyze the oxidation of both H2 and CO in one reaction pot would be a major boon to hydrogen technology since CO is a consistent contaminant of H2 supplies. Here, we report just such a catalyst, with the ability to catalyze the oxidation of either or both H2 and CO, based on the pH value. This catalyst is based on a NiIr core that mimics the chemical function of [NiFe]hydrogenase in acidic media (pH 4–7) and carbon monoxide dehydrogenase in basic media (pH 7–10). We have applied this catalyst in a demonstration fuel cell using H2, CO, and H2/CO (1/1) feeds as fuels for oxidation at the anode. The power density of the fuel cell depends on the pH value in the media of the fuel cell and shows a similar pH dependence in a flask. We have isolated and characterized all intermediates in our proposed catalytic cycles.",

author = "Seiji Ogo and Yuki Mori and Tatsuya Ando and Takahiro Matsumoto and Takeshi Yatabe and Yoon, {Ki Seok} and Hideki Hayashi and Masashi Asano",

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AU - Ogo, Seiji

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AU - Yatabe, Takeshi

AU - Yoon, Ki Seok

AU - Hayashi, Hideki

AU - Asano, Masashi

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One Model, Two Enzymes: Activation of Hydrogen and Carbon Monoxide

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