The Evolution in Catalytic Activity Driven by Periodic Transformation in the Inner Sites of Gold Clusters

Yongnan Sun; Endong Wang; Yujing Ren; Kang Xiao; Xu Liu; Dan Yang; Yi Gao; Weiping Ding; Yan Zhu

doi:10.1002/adfm.201904242

The Evolution in Catalytic Activity Driven by Periodic Transformation in the Inner Sites of Gold Clusters

Yongnan Sun, Endong Wang, Yujing Ren, Kang Xiao, Xu Liu, Dan Yang, Yi Gao, Weiping Ding, Yan Zhu

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

32 Scopus citations

Abstract

It is extremely difficult to distinguish the contributions of different sites on the surface and in the inner sites of a catalyst to the overall catalytic performance, as the observed catalytic results reflect an ensemble average from almost all the active sites. How do the inner sites of a catalyst that seem to be not directly involved in a catalytic process exactly contribute to the catalytic performance? Toward this goal, herein the studies not only provide fundamental insights into how the alteration of Au₈ _n ₊₄(SR)₄ _n ₊₈ clusters by only the inner structure can dramatically change the intrinsic catalytic properties, where Au₈ _n ₊₄(SR)₄ _n ₊₈ (n = 3, 4, 5) clusters have the same surface motifs but share a periodic kernel structure, but also further demonstrate that the evolution in catalytic activity can potentially be determined by periodic transformation in the inner kernels.

Original language	English
Article number	1904242
Journal	Advanced Functional Materials
Volume	29
Issue number	38
DOIs	https://doi.org/10.1002/adfm.201904242
State	Published - 1 Sep 2019
Externally published	Yes

Keywords

activity evolution
gold clusters
inner sites
periodic structure

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10.1002/adfm.201904242

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title = "The Evolution in Catalytic Activity Driven by Periodic Transformation in the Inner Sites of Gold Clusters",

abstract = "It is extremely difficult to distinguish the contributions of different sites on the surface and in the inner sites of a catalyst to the overall catalytic performance, as the observed catalytic results reflect an ensemble average from almost all the active sites. How do the inner sites of a catalyst that seem to be not directly involved in a catalytic process exactly contribute to the catalytic performance? Toward this goal, herein the studies not only provide fundamental insights into how the alteration of Au8 n +4(SR)4 n +8 clusters by only the inner structure can dramatically change the intrinsic catalytic properties, where Au8 n +4(SR)4 n +8 (n = 3, 4, 5) clusters have the same surface motifs but share a periodic kernel structure, but also further demonstrate that the evolution in catalytic activity can potentially be determined by periodic transformation in the inner kernels.",

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AU - Sun, Yongnan

AU - Wang, Endong

AU - Ren, Yujing

AU - Xiao, Kang

AU - Liu, Xu

AU - Yang, Dan

AU - Gao, Yi

AU - Ding, Weiping

AU - Zhu, Yan

PY - 2019/9/1

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N2 - It is extremely difficult to distinguish the contributions of different sites on the surface and in the inner sites of a catalyst to the overall catalytic performance, as the observed catalytic results reflect an ensemble average from almost all the active sites. How do the inner sites of a catalyst that seem to be not directly involved in a catalytic process exactly contribute to the catalytic performance? Toward this goal, herein the studies not only provide fundamental insights into how the alteration of Au8 n +4(SR)4 n +8 clusters by only the inner structure can dramatically change the intrinsic catalytic properties, where Au8 n +4(SR)4 n +8 (n = 3, 4, 5) clusters have the same surface motifs but share a periodic kernel structure, but also further demonstrate that the evolution in catalytic activity can potentially be determined by periodic transformation in the inner kernels.

AB - It is extremely difficult to distinguish the contributions of different sites on the surface and in the inner sites of a catalyst to the overall catalytic performance, as the observed catalytic results reflect an ensemble average from almost all the active sites. How do the inner sites of a catalyst that seem to be not directly involved in a catalytic process exactly contribute to the catalytic performance? Toward this goal, herein the studies not only provide fundamental insights into how the alteration of Au8 n +4(SR)4 n +8 clusters by only the inner structure can dramatically change the intrinsic catalytic properties, where Au8 n +4(SR)4 n +8 (n = 3, 4, 5) clusters have the same surface motifs but share a periodic kernel structure, but also further demonstrate that the evolution in catalytic activity can potentially be determined by periodic transformation in the inner kernels.

KW - activity evolution

KW - gold clusters

KW - inner sites

KW - periodic structure

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The Evolution in Catalytic Activity Driven by Periodic Transformation in the Inner Sites of Gold Clusters

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Keywords

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