GREEN RUST-BASED CATALYSTS FOR AMMONIA BORANE DEHYDROGENATION

Ezz-Elregal M Ezz-Elregal; Makoto Oishi; Takuro Nagai; Yusuke Ide

doi:10.11362/jcssjclayscience.MS-25-7

論文 GREEN RUST-BASED CATALYSTS FOR AMMONIA BORANE DEHYDROGENATION

Ezz-Elregal M Ezz-Elregal (Research Center for Materials Nanoarchitectonics (MANA)/Nanomaterials Field/Layered Nanochemistry Group, National Institute for Materials Science) ; Makoto Oishi (Research Network and Facility Services Division/Materials Fabrication and Analysis Platform/Electron Microscopy Unit, National Institute for Materials Science) ; Takuro Nagai (Research Network and Facility Services Division/Materials Fabrication and Analysis Platform/Electron Microscopy Unit, National Institute for Materials Science) ; Yusuke Ide (Research Center for Materials Nanoarchitectonics (MANA)/Nanomaterials Field/Layered Nanochemistry Group, National Institute for Materials Science)

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Ezz-Elregal M Ezz-Elregal, Makoto Oishi, Takuro Nagai, Yusuke Ide. GREEN RUST-BASED CATALYSTS FOR AMMONIA BORANE DEHYDROGENATION. Clay Science. , 294 (3-4), 39-45. https://doi.org/10.11362/jcssjclayscience.MS-25-7

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(abstract)

Green rust (GR), a Fe2+/Fe3+-layered double hydroxide (LDH), was thought to be extremely unstable toward oxidation and thus less well studied as catalysts and their supports than many other LDHs. Here, the modification of a [Fe2+-Fe3+] mixed valent iron hydroxide, that we term GR, with Cu species and application of the Cu-modified GR as the catalyst for the hydrolysis of ammonia borane (AB) was described. From spectroscopic and microscopic analyses, the Cu-modified GR was composed of plate-like GR particles decorated with Cu2O clusters and nanoparticles on the particles’ surfaces and edges. The Cu-modified GR, synthesized via the modification of ball-milled GR with Cu2O species, exhibited an excellent H2 evolution rate and amount at room temperature under solar simulator irradiation that was faster and larger, respectively, than Pt nanoparticle-supported and Cu-modified TiO2. Control catalytic tests without solar simulator irradiation and an action spectrum study suggested that the Cu-modified GR showed light-assisted catalysis toward AB hydrolysis thanks to Cu2O modifiers.

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