Rational Synthesis for a Noble Metal Carbide

Takuo Wakisaka; Kohei Kusada; Dongshuang Wu; Tomokazu Yamamoto; Takaaki Toriyama; Syo Matsumura; Hiroshi Akiba; Osamu Yamamuro; Kazutaka Ikeda; Toshiya Otomo; Natalia Palina; Yanna Chen; Loku S.R. Kumara; Chulho Song; Osami Sakata; Wei Xie; Michihisa Koyama; Yoshiki Kubota; Shogo Kawaguchi; Ryan L. Arevalo; Susan M. Aspera; Elvis F. Arguelles; Hiroshi Nakanishi; Hiroshi Kitagawa

doi:10.1021/jacs.9b09219

Rational Synthesis for a Noble Metal Carbide

Takuo Wakisaka, Kohei Kusada, Dongshuang Wu, Tomokazu Yamamoto, Takaaki Toriyama, Syo Matsumura, Hiroshi Akiba, Osamu Yamamuro, Kazutaka Ikeda, Toshiya Otomo, Natalia Palina, Yanna Chen, Loku S.R. Kumara, Chulho Song, Osami Sakata, Wei Xie, Michihisa Koyama, Yoshiki Kubota, Shogo Kawaguchi, Ryan L. ArevaloSusan M. Aspera, Elvis F. Arguelles, Hiroshi Nakanishi, Hiroshi Kitagawa

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

12 Citations (Scopus)

Abstract

Transition metal carbides have attractive physical and chemical properties that are much different from their parent metals. Particularly, noble metal carbides are expected to be promising materials for a variety of applications, particularly as efficient catalysts. However, noble metal carbides have rarely been obtained because carbide phases do not appear in noble metal-carbon phase diagrams and a reasonable synthesis method to make noble metal carbides has not yet been established. Here, we propose a new synthesis method for noble metal carbides and describe the first synthesis of rhodium carbide using tetracyanoethylene (TCNE). The rhodium carbide was synthesized without extreme conditions, such as the very high temperature and/or pressure typically required in conventional carbide syntheses. Moreover, we investigated the electronic structure and catalytic activity for the hydrogen evolution reaction (HER). We found that rhodium carbide has much higher catalytic activity for HER than pure Rh. Our study provides a feasible strategy to create new metal carbides to help advance the field of materials science.

Original language	English
Pages (from-to)	1247-1253
Number of pages	7
Journal	Journal of the American Chemical Society
Volume	142
Issue number	3
DOIs	https://doi.org/10.1021/jacs.9b09219
Publication status	Published - Jan 22 2020

All Science Journal Classification (ASJC) codes

Catalysis
Chemistry(all)
Biochemistry
Colloid and Surface Chemistry

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10.1021/jacs.9b09219

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Wakisaka, T., Kusada, K., Wu, D., Yamamoto, T., Toriyama, T., Matsumura, S., Akiba, H., Yamamuro, O., Ikeda, K., Otomo, T., Palina, N., Chen, Y., Kumara, L. S. R., Song, C., Sakata, O., Xie, W., Koyama, M., Kubota, Y., Kawaguchi, S., ... Kitagawa, H. (2020). Rational Synthesis for a Noble Metal Carbide. Journal of the American Chemical Society, 142(3), 1247-1253. https://doi.org/10.1021/jacs.9b09219

Wakisaka, T, Kusada, K, Wu, D, Yamamoto, T , Toriyama, T, Matsumura, S, Akiba, H, Yamamuro, O, Ikeda, K, Otomo, T, Palina, N, Chen, Y, Kumara, LSR, Song, C, Sakata, O, Xie, W, Koyama, M, Kubota, Y, Kawaguchi, S, Arevalo, RL, Aspera, SM, Arguelles, EF, Nakanishi, H & Kitagawa, H 2020, 'Rational Synthesis for a Noble Metal Carbide', Journal of the American Chemical Society, vol. 142, no. 3, pp. 1247-1253. https://doi.org/10.1021/jacs.9b09219

@article{25efc877c3664074b271dac70c0d772d,

title = "Rational Synthesis for a Noble Metal Carbide",

abstract = "Transition metal carbides have attractive physical and chemical properties that are much different from their parent metals. Particularly, noble metal carbides are expected to be promising materials for a variety of applications, particularly as efficient catalysts. However, noble metal carbides have rarely been obtained because carbide phases do not appear in noble metal-carbon phase diagrams and a reasonable synthesis method to make noble metal carbides has not yet been established. Here, we propose a new synthesis method for noble metal carbides and describe the first synthesis of rhodium carbide using tetracyanoethylene (TCNE). The rhodium carbide was synthesized without extreme conditions, such as the very high temperature and/or pressure typically required in conventional carbide syntheses. Moreover, we investigated the electronic structure and catalytic activity for the hydrogen evolution reaction (HER). We found that rhodium carbide has much higher catalytic activity for HER than pure Rh. Our study provides a feasible strategy to create new metal carbides to help advance the field of materials science.",

author = "Takuo Wakisaka and Kohei Kusada and Dongshuang Wu and Tomokazu Yamamoto and Takaaki Toriyama and Syo Matsumura and Hiroshi Akiba and Osamu Yamamuro and Kazutaka Ikeda and Toshiya Otomo and Natalia Palina and Yanna Chen and Kumara, {Loku S.R.} and Chulho Song and Osami Sakata and Wei Xie and Michihisa Koyama and Yoshiki Kubota and Shogo Kawaguchi and Arevalo, {Ryan L.} and Aspera, {Susan M.} and Arguelles, {Elvis F.} and Hiroshi Nakanishi and Hiroshi Kitagawa",

note = "Funding Information: This research was supported by the ACCEL program, Japan Science and Technology Agency (JST), JPMJAC1501. STEM observations were performed as part of a program conducted by the Advanced Characterization Nanotechnology Platform sponsored by the MEXT of the Japanese Government. Synchrotron XRD and HAXPES measurements were carried out at SPring-8 under proposal No. 2016B1506, No. 2017A1165, No. 2017A4910, and No. 2017B4908. The experiment at the Materials and Life Science Experimental Facility of the J-PARC was performed under a user program (Proposal No. 2017A0241). The activities of the INAMORI Frontier Research Center, Kyushu University are supported by KYOCERA Corporation. Publisher Copyright: Copyright {\textcopyright} 2019 American Chemical Society.",

year = "2020",

month = jan,

day = "22",

doi = "10.1021/jacs.9b09219",

language = "English",

volume = "142",

pages = "1247--1253",

journal = "Journal of the American Chemical Society",

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T1 - Rational Synthesis for a Noble Metal Carbide

AU - Wakisaka, Takuo

AU - Kusada, Kohei

AU - Wu, Dongshuang

AU - Yamamoto, Tomokazu

AU - Toriyama, Takaaki

AU - Matsumura, Syo

AU - Akiba, Hiroshi

AU - Yamamuro, Osamu

AU - Ikeda, Kazutaka

AU - Otomo, Toshiya

AU - Palina, Natalia

AU - Chen, Yanna

AU - Kumara, Loku S.R.

AU - Song, Chulho

AU - Sakata, Osami

AU - Xie, Wei

AU - Koyama, Michihisa

AU - Kubota, Yoshiki

AU - Kawaguchi, Shogo

AU - Arevalo, Ryan L.

AU - Aspera, Susan M.

AU - Arguelles, Elvis F.

AU - Nakanishi, Hiroshi

AU - Kitagawa, Hiroshi

N1 - Funding Information: This research was supported by the ACCEL program, Japan Science and Technology Agency (JST), JPMJAC1501. STEM observations were performed as part of a program conducted by the Advanced Characterization Nanotechnology Platform sponsored by the MEXT of the Japanese Government. Synchrotron XRD and HAXPES measurements were carried out at SPring-8 under proposal No. 2016B1506, No. 2017A1165, No. 2017A4910, and No. 2017B4908. The experiment at the Materials and Life Science Experimental Facility of the J-PARC was performed under a user program (Proposal No. 2017A0241). The activities of the INAMORI Frontier Research Center, Kyushu University are supported by KYOCERA Corporation. Publisher Copyright: Copyright © 2019 American Chemical Society.

PY - 2020/1/22

Y1 - 2020/1/22

N2 - Transition metal carbides have attractive physical and chemical properties that are much different from their parent metals. Particularly, noble metal carbides are expected to be promising materials for a variety of applications, particularly as efficient catalysts. However, noble metal carbides have rarely been obtained because carbide phases do not appear in noble metal-carbon phase diagrams and a reasonable synthesis method to make noble metal carbides has not yet been established. Here, we propose a new synthesis method for noble metal carbides and describe the first synthesis of rhodium carbide using tetracyanoethylene (TCNE). The rhodium carbide was synthesized without extreme conditions, such as the very high temperature and/or pressure typically required in conventional carbide syntheses. Moreover, we investigated the electronic structure and catalytic activity for the hydrogen evolution reaction (HER). We found that rhodium carbide has much higher catalytic activity for HER than pure Rh. Our study provides a feasible strategy to create new metal carbides to help advance the field of materials science.

AB - Transition metal carbides have attractive physical and chemical properties that are much different from their parent metals. Particularly, noble metal carbides are expected to be promising materials for a variety of applications, particularly as efficient catalysts. However, noble metal carbides have rarely been obtained because carbide phases do not appear in noble metal-carbon phase diagrams and a reasonable synthesis method to make noble metal carbides has not yet been established. Here, we propose a new synthesis method for noble metal carbides and describe the first synthesis of rhodium carbide using tetracyanoethylene (TCNE). The rhodium carbide was synthesized without extreme conditions, such as the very high temperature and/or pressure typically required in conventional carbide syntheses. Moreover, we investigated the electronic structure and catalytic activity for the hydrogen evolution reaction (HER). We found that rhodium carbide has much higher catalytic activity for HER than pure Rh. Our study provides a feasible strategy to create new metal carbides to help advance the field of materials science.

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EP - 1253

JO - Journal of the American Chemical Society

JF - Journal of the American Chemical Society

IS - 3

ER -

Rational Synthesis for a Noble Metal Carbide

Abstract

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