Ni-Mg Supported Catalysts on Low-Temperature Electrocatalytic Tri-reforming of Methane with Suppressed Oxidation

Tomohiro Yabe; Kensei Yamada; Task Oguri; Takuma Higo; Shuhei Ogo; Yasushi Sekine

doi:10.1021/acscatal.8b02476

Ni-Mg Supported Catalysts on Low-Temperature Electrocatalytic Tri-reforming of Methane with Suppressed Oxidation

Tomohiro Yabe, Kensei Yamada, Task Oguri, Takuma Higo, Shuhei Ogo, Yasushi Sekine^*

^*この研究の対応する著者

研究成果: Article › 査読

25 被引用数 (Scopus)

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10wt%Ni-10wt%Mg-La_0.1Zr_0.9O_2-x (LZO) catalyst shows high reforming activity of methane while suppressing methane combustion on tri-reforming of methane at low temperatures of 473 K in an electric field. On the basis of results of light-on and light-off tests for methane oxidation and temperature dependencies for catalytic methane steam reforming activity with or without the electric field, we found that Mg addition to 10wt%Ni-LZO catalyst suppresses methane combustion, while the methane steam reforming proceeds well by virtue of surface protonics in the electric field. Ni²⁺ on 10wt%Ni-10wt%Mg-LZO catalyst was more cationic than that on 10wt%Ni-LZO catalyst, and NiO-MgO solid solution formed on LZO support played an important role in combustion suppression.

本文言語	English
ページ（範囲）	11470-11477
ページ数	8
ジャーナル	ACS Catalysis
巻	8
号	12
DOI	https://doi.org/10.1021/acscatal.8b02476
出版ステータス	Published - 2018 12月 7

ASJC Scopus subject areas

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化学 (全般)

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10.1021/acscatal.8b02476

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title = "Ni-Mg Supported Catalysts on Low-Temperature Electrocatalytic Tri-reforming of Methane with Suppressed Oxidation",

abstract = "10wt%Ni-10wt%Mg-La0.1Zr0.9O2-x (LZO) catalyst shows high reforming activity of methane while suppressing methane combustion on tri-reforming of methane at low temperatures of 473 K in an electric field. On the basis of results of light-on and light-off tests for methane oxidation and temperature dependencies for catalytic methane steam reforming activity with or without the electric field, we found that Mg addition to 10wt%Ni-LZO catalyst suppresses methane combustion, while the methane steam reforming proceeds well by virtue of surface protonics in the electric field. Ni2+ on 10wt%Ni-10wt%Mg-LZO catalyst was more cationic than that on 10wt%Ni-LZO catalyst, and NiO-MgO solid solution formed on LZO support played an important role in combustion suppression.",

keywords = "Ni catalyst, XAFS measurements, methane tri-reforming, oxidation suppression, steam reforming",

author = "Tomohiro Yabe and Kensei Yamada and Task Oguri and Takuma Higo and Shuhei Ogo and Yasushi Sekine",

year = "2018",

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doi = "10.1021/acscatal.8b02476",

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T1 - Ni-Mg Supported Catalysts on Low-Temperature Electrocatalytic Tri-reforming of Methane with Suppressed Oxidation

AU - Yabe, Tomohiro

AU - Yamada, Kensei

AU - Oguri, Task

AU - Higo, Takuma

AU - Ogo, Shuhei

AU - Sekine, Yasushi

PY - 2018/12/7

Y1 - 2018/12/7

N2 - 10wt%Ni-10wt%Mg-La0.1Zr0.9O2-x (LZO) catalyst shows high reforming activity of methane while suppressing methane combustion on tri-reforming of methane at low temperatures of 473 K in an electric field. On the basis of results of light-on and light-off tests for methane oxidation and temperature dependencies for catalytic methane steam reforming activity with or without the electric field, we found that Mg addition to 10wt%Ni-LZO catalyst suppresses methane combustion, while the methane steam reforming proceeds well by virtue of surface protonics in the electric field. Ni2+ on 10wt%Ni-10wt%Mg-LZO catalyst was more cationic than that on 10wt%Ni-LZO catalyst, and NiO-MgO solid solution formed on LZO support played an important role in combustion suppression.

AB - 10wt%Ni-10wt%Mg-La0.1Zr0.9O2-x (LZO) catalyst shows high reforming activity of methane while suppressing methane combustion on tri-reforming of methane at low temperatures of 473 K in an electric field. On the basis of results of light-on and light-off tests for methane oxidation and temperature dependencies for catalytic methane steam reforming activity with or without the electric field, we found that Mg addition to 10wt%Ni-LZO catalyst suppresses methane combustion, while the methane steam reforming proceeds well by virtue of surface protonics in the electric field. Ni2+ on 10wt%Ni-10wt%Mg-LZO catalyst was more cationic than that on 10wt%Ni-LZO catalyst, and NiO-MgO solid solution formed on LZO support played an important role in combustion suppression.

KW - Ni catalyst

KW - XAFS measurements

KW - methane tri-reforming

KW - oxidation suppression

KW - steam reforming

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JO - ACS Catalysis

JF - ACS Catalysis

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Ni-Mg Supported Catalysts on Low-Temperature Electrocatalytic Tri-reforming of Methane with Suppressed Oxidation

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