Thermal Emitting Strategy to Synthesize Atomically Dispersed Pt Metal Sites from Bulk Pt Metal

Yunteng Qu; Bingxu Chen; Zhijun Li; Xuezhi Duan; Liguang Wang; Yue Lin; Tongwei Yuan; Fangyao Zhou; Yidong Hu; Zhengkun Yang; Changming Zhao; Jing Wang; Chao Zhao; Yanmin Hu; Geng Wu; Qinghua Zhang; Qian Xu; Bingyao Liu; Peng Gao; Rui You; Weixin Huang; Lirong Zheng; Lin Gu; Yuen Wu; Yadong Li

doi:10.1021/jacs.8b09834

Thermal Emitting Strategy to Synthesize Atomically Dispersed Pt Metal Sites from Bulk Pt Metal

Yunteng Qu, Bingxu Chen, Zhijun Li, Xuezhi Duan^*, Liguang Wang, Yue Lin, Tongwei Yuan, Fangyao Zhou, Yidong Hu, Zhengkun Yang, Changming Zhao, Jing Wang, Chao Zhao, Yanmin Hu, Geng Wu, Qinghua Zhang, Qian Xu, Bingyao Liu, Peng Gao, Rui YouWeixin Huang, Lirong Zheng, Lin Gu, Yuen Wu, Yadong Li

^*Corresponding author for this work

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

324 Citations (Scopus)

Abstract

Developing a facile route to access active and well-defined single atom sites catalysts has been a major area of focus for single atoms catalysts (SACs). Herein, we demonstrate a simple approach to generate atomically dispersed platinum via a thermal emitting method using bulk Pt metal as a precursor, significantly simplifying synthesis routes and minimizing synthesis costs. The ammonia produced by pyrolysis of Dicyandiamide can coordinate with platinum atoms by strong coordination effect. Then, the volatile Pt(NH₃)_x can be anchored onto the surface of defective graphene. The as-prepared Pt SAs/DG exhibits high activity for the electrochemical hydrogen evolution reaction and selective oxidation of various organosilanes. This viable thermal emitting strategy can also be applied to other single metal atoms, for example, gold and palladium. Our findings provide an enabling and versatile platform for facile accessing SACs toward many industrial important reactions.

Original language	English
Pages (from-to)	4505-4509
Number of pages	5
Journal	Journal of the American Chemical Society
Volume	141
Issue number	11
DOIs	https://doi.org/10.1021/jacs.8b09834
Publication status	Published - 20 Mar 2019
Externally published	Yes

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Qu, Y., Chen, B., Li, Z., Duan, X., Wang, L., Lin, Y., Yuan, T., Zhou, F., Hu, Y., Yang, Z., Zhao, C., Wang, J., Zhao, C., Hu, Y., Wu, G., Zhang, Q., Xu, Q., Liu, B., Gao, P., ... Li, Y. (2019). Thermal Emitting Strategy to Synthesize Atomically Dispersed Pt Metal Sites from Bulk Pt Metal. Journal of the American Chemical Society, 141(11), 4505-4509. https://doi.org/10.1021/jacs.8b09834

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title = "Thermal Emitting Strategy to Synthesize Atomically Dispersed Pt Metal Sites from Bulk Pt Metal",

abstract = "Developing a facile route to access active and well-defined single atom sites catalysts has been a major area of focus for single atoms catalysts (SACs). Herein, we demonstrate a simple approach to generate atomically dispersed platinum via a thermal emitting method using bulk Pt metal as a precursor, significantly simplifying synthesis routes and minimizing synthesis costs. The ammonia produced by pyrolysis of Dicyandiamide can coordinate with platinum atoms by strong coordination effect. Then, the volatile Pt(NH3)x can be anchored onto the surface of defective graphene. The as-prepared Pt SAs/DG exhibits high activity for the electrochemical hydrogen evolution reaction and selective oxidation of various organosilanes. This viable thermal emitting strategy can also be applied to other single metal atoms, for example, gold and palladium. Our findings provide an enabling and versatile platform for facile accessing SACs toward many industrial important reactions.",

author = "Yunteng Qu and Bingxu Chen and Zhijun Li and Xuezhi Duan and Liguang Wang and Yue Lin and Tongwei Yuan and Fangyao Zhou and Yidong Hu and Zhengkun Yang and Changming Zhao and Jing Wang and Chao Zhao and Yanmin Hu and Geng Wu and Qinghua Zhang and Qian Xu and Bingyao Liu and Peng Gao and Rui You and Weixin Huang and Lirong Zheng and Lin Gu and Yuen Wu and Yadong Li",

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Qu, Y, Chen, B, Li, Z, Duan, X, Wang, L, Lin, Y, Yuan, T, Zhou, F, Hu, Y, Yang, Z, Zhao, C, Wang, J, Zhao, C, Hu, Y, Wu, G, Zhang, Q, Xu, Q, Liu, B, Gao, P, You, R, Huang, W, Zheng, L, Gu, L, Wu, Y & Li, Y 2019, 'Thermal Emitting Strategy to Synthesize Atomically Dispersed Pt Metal Sites from Bulk Pt Metal', Journal of the American Chemical Society, vol. 141, no. 11, pp. 4505-4509. https://doi.org/10.1021/jacs.8b09834

TY - JOUR

T1 - Thermal Emitting Strategy to Synthesize Atomically Dispersed Pt Metal Sites from Bulk Pt Metal

AU - Qu, Yunteng

AU - Chen, Bingxu

AU - Li, Zhijun

AU - Duan, Xuezhi

AU - Wang, Liguang

AU - Lin, Yue

AU - Yuan, Tongwei

AU - Zhou, Fangyao

AU - Hu, Yidong

AU - Yang, Zhengkun

AU - Zhao, Changming

AU - Wang, Jing

AU - Zhao, Chao

AU - Hu, Yanmin

AU - Wu, Geng

AU - Zhang, Qinghua

AU - Xu, Qian

AU - Liu, Bingyao

AU - Gao, Peng

AU - You, Rui

AU - Huang, Weixin

AU - Zheng, Lirong

AU - Gu, Lin

AU - Wu, Yuen

AU - Li, Yadong

PY - 2019/3/20

Y1 - 2019/3/20

N2 - Developing a facile route to access active and well-defined single atom sites catalysts has been a major area of focus for single atoms catalysts (SACs). Herein, we demonstrate a simple approach to generate atomically dispersed platinum via a thermal emitting method using bulk Pt metal as a precursor, significantly simplifying synthesis routes and minimizing synthesis costs. The ammonia produced by pyrolysis of Dicyandiamide can coordinate with platinum atoms by strong coordination effect. Then, the volatile Pt(NH3)x can be anchored onto the surface of defective graphene. The as-prepared Pt SAs/DG exhibits high activity for the electrochemical hydrogen evolution reaction and selective oxidation of various organosilanes. This viable thermal emitting strategy can also be applied to other single metal atoms, for example, gold and palladium. Our findings provide an enabling and versatile platform for facile accessing SACs toward many industrial important reactions.

AB - Developing a facile route to access active and well-defined single atom sites catalysts has been a major area of focus for single atoms catalysts (SACs). Herein, we demonstrate a simple approach to generate atomically dispersed platinum via a thermal emitting method using bulk Pt metal as a precursor, significantly simplifying synthesis routes and minimizing synthesis costs. The ammonia produced by pyrolysis of Dicyandiamide can coordinate with platinum atoms by strong coordination effect. Then, the volatile Pt(NH3)x can be anchored onto the surface of defective graphene. The as-prepared Pt SAs/DG exhibits high activity for the electrochemical hydrogen evolution reaction and selective oxidation of various organosilanes. This viable thermal emitting strategy can also be applied to other single metal atoms, for example, gold and palladium. Our findings provide an enabling and versatile platform for facile accessing SACs toward many industrial important reactions.

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DO - 10.1021/jacs.8b09834

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AN - SCOPUS:85062847737

SN - 0002-7863

VL - 141

SP - 4505

EP - 4509

JO - Journal of the American Chemical Society

JF - Journal of the American Chemical Society

IS - 11

ER -

Thermal Emitting Strategy to Synthesize Atomically Dispersed Pt Metal Sites from Bulk Pt Metal

Abstract

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