A mesoporous non-precious metal boride system: Synthesis of mesoporous cobalt boride by strictly controlled chemical reduction

Bo Jiang; Hui Song; Yunqing Kang; Shengyao Wang; Qi Wang; Xin Zhou; Kenya Kani; Yanna Guo; Jinhua Ye; Hexing Li; Yoshio Sakka; Joel Henzie; Yamauchi Yusuke

doi:10.1039/c9sc04498a

A mesoporous non-precious metal boride system: Synthesis of mesoporous cobalt boride by strictly controlled chemical reduction

Bo Jiang, Hui Song, Yunqing Kang, Shengyao Wang, Qi Wang, Xin Zhou, Kenya Kani, Yanna Guo, Jinhua Ye, Hexing Li, Yoshio Sakka, Joel Henzie^*, Yamauchi Yusuke

^*Corresponding author for this work

Kagami Memorial Research Institute for Materials Science and Technology

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

52 Citations (Scopus)

Abstract

Generating high surface area mesoporous transition metal boride is interesting because the incorporation of boron atoms generates lattice distortions that lead to the formation of amorphous metal boride with unique properties in catalysis. Here we report the first synthesis of mesoporous cobalt boron amorphous alloy colloidal particles using a soft template-directed assembly approach. Dual reducing agents are used to precisely control the chemical reduction process of mesoporous cobalt boron nanospheres. The Earth-abundance of cobalt boride combined with the high surface area and mesoporous nanoarchitecture enables solar-energy efficient photothermal conversion of CO₂ into CO compared to non-porous cobalt boron alloys and commercial cobalt catalysts.

Original language	English
Pages (from-to)	791-796
Number of pages	6
Journal	Chemical Science
Volume	11
Issue number	3
DOIs	https://doi.org/10.1039/c9sc04498a
Publication status	Published - 2020

ASJC Scopus subject areas

Chemistry(all)

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title = "A mesoporous non-precious metal boride system: Synthesis of mesoporous cobalt boride by strictly controlled chemical reduction",

abstract = "Generating high surface area mesoporous transition metal boride is interesting because the incorporation of boron atoms generates lattice distortions that lead to the formation of amorphous metal boride with unique properties in catalysis. Here we report the first synthesis of mesoporous cobalt boron amorphous alloy colloidal particles using a soft template-directed assembly approach. Dual reducing agents are used to precisely control the chemical reduction process of mesoporous cobalt boron nanospheres. The Earth-abundance of cobalt boride combined with the high surface area and mesoporous nanoarchitecture enables solar-energy efficient photothermal conversion of CO2 into CO compared to non-porous cobalt boron alloys and commercial cobalt catalysts.",

author = "Bo Jiang and Hui Song and Yunqing Kang and Shengyao Wang and Qi Wang and Xin Zhou and Kenya Kani and Yanna Guo and Jinhua Ye and Hexing Li and Yoshio Sakka and Joel Henzie and Yamauchi Yusuke",

note = "Funding Information: This work was supported by the Australian Research Council (ARC) Future Fellowship (FT150100479) and the JSPS Postdoctoral Fellowship Program for Foreign Researchers. This work was performed in part at the Australian National Fabrication Facility Queensland Node (ANFF-Q), a company established under the National Collaborative Research Infrastructure Strategy to provide nano-and micro-fabrication facilities for Australia's researchers. Publisher Copyright: {\textcopyright} 2020 The Royal Society of Chemistry.",

year = "2020",

doi = "10.1039/c9sc04498a",

language = "English",

volume = "11",

pages = "791--796",

journal = "Chemical Science",

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T2 - Synthesis of mesoporous cobalt boride by strictly controlled chemical reduction

AU - Jiang, Bo

AU - Song, Hui

AU - Kang, Yunqing

AU - Wang, Shengyao

AU - Wang, Qi

AU - Zhou, Xin

AU - Kani, Kenya

AU - Guo, Yanna

AU - Ye, Jinhua

AU - Li, Hexing

AU - Sakka, Yoshio

AU - Henzie, Joel

AU - Yusuke, Yamauchi

N1 - Funding Information: This work was supported by the Australian Research Council (ARC) Future Fellowship (FT150100479) and the JSPS Postdoctoral Fellowship Program for Foreign Researchers. This work was performed in part at the Australian National Fabrication Facility Queensland Node (ANFF-Q), a company established under the National Collaborative Research Infrastructure Strategy to provide nano-and micro-fabrication facilities for Australia's researchers. Publisher Copyright: © 2020 The Royal Society of Chemistry.

PY - 2020

Y1 - 2020

N2 - Generating high surface area mesoporous transition metal boride is interesting because the incorporation of boron atoms generates lattice distortions that lead to the formation of amorphous metal boride with unique properties in catalysis. Here we report the first synthesis of mesoporous cobalt boron amorphous alloy colloidal particles using a soft template-directed assembly approach. Dual reducing agents are used to precisely control the chemical reduction process of mesoporous cobalt boron nanospheres. The Earth-abundance of cobalt boride combined with the high surface area and mesoporous nanoarchitecture enables solar-energy efficient photothermal conversion of CO2 into CO compared to non-porous cobalt boron alloys and commercial cobalt catalysts.

AB - Generating high surface area mesoporous transition metal boride is interesting because the incorporation of boron atoms generates lattice distortions that lead to the formation of amorphous metal boride with unique properties in catalysis. Here we report the first synthesis of mesoporous cobalt boron amorphous alloy colloidal particles using a soft template-directed assembly approach. Dual reducing agents are used to precisely control the chemical reduction process of mesoporous cobalt boron nanospheres. The Earth-abundance of cobalt boride combined with the high surface area and mesoporous nanoarchitecture enables solar-energy efficient photothermal conversion of CO2 into CO compared to non-porous cobalt boron alloys and commercial cobalt catalysts.

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JO - Chemical Science

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A mesoporous non-precious metal boride system: Synthesis of mesoporous cobalt boride by strictly controlled chemical reduction

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