在多孔普鲁士蓝类似物纳米笼中原位锚定多金属磷化物纳米颗粒以促进析氧催化

In Situ Anchoring Polymetallic Phosphide Nanoparticles within Porous Prussian Blue Analogue Nanocages for Boosting Oxygen Evolution Catalysis.

作者信息

Zhang Guangxun, Li Yanle, Xiao Xiao, Shan Yang, Bai Yang, Xue Huai-Guo, Pang Huan, Tian Ziqi, Xu Qiang

机构信息

School of Chemistry and Chemical Engineering, Yangzhou University, Yangzhou, 225009, Jiangsu, P.R. China.

Ningbo Institute of Materials Technology and Engineering, Chinese Academy of Sciences, Ningbo 315201, Zhejiang, P.R. China.

出版信息

Nano Lett. 2021 Apr 14;21(7):3016-3025. doi: 10.1021/acs.nanolett.1c00179. Epub 2021 Mar 26.

DOI:10.1021/acs.nanolett.1c00179

PMID:33769812

Abstract

The controllable synthesis of metal-based nanoclusters for heterogeneous catalytic reactions has received considerable attention. Nevertheless, manufacturing these architectures, while avoiding aggregation and retaining surface activity, remains challenging. Herein, for the first time we designed NiCoFe-Prussian blue analogue (PBA) nanocages as a support for in situ dispersion and anchoring of polymetallic phosphide nanoparticles (pMP-NPs). Benefiting from the porous surfaces and the synergistic effects between pMP-NPs and the cyano groups in PBA, the NiCoFe-P-NP@NiCoFe-PBA nanocages exhibit a significantly enhanced catalytic activity for oxygen evolution reaction (OER) with an overpotential of 223 mV at 10 mA cm and a Tafel slope of 78 mV dec, outperforming the NiCoFe-PBA nanocubes, NiCoFe-P nanocages, NiFe-P-NP@NiFe-PBA nanocubes, and CoFe-P-NP@CoFe-PBA nanoboxes. This work not only offers the synthesis strategy of in situ anchoring pMP-NPs on PBA nanocages but also provides a new insight into optimized Gibbs free energy of OER by regulating electron transfer from metallic phosphides to PBA substrate.

摘要

用于多相催化反应的金属基纳米团簇的可控合成受到了广泛关注。然而，制造这些结构，同时避免聚集并保持表面活性，仍然具有挑战性。在此，我们首次设计了NiCoFe-普鲁士蓝类似物（PBA）纳米笼，作为多金属磷化物纳米颗粒（pMP-NPs）原位分散和锚定的载体。得益于多孔表面以及pMP-NPs与PBA中氰基之间的协同效应，NiCoFe-P-NP@NiCoFe-PBA纳米笼对析氧反应（OER）表现出显著增强的催化活性，在10 mA cm时过电位为223 mV，塔菲尔斜率为78 mV dec，优于NiCoFe-PBA纳米立方体、NiCoFe-P纳米笼、NiFe-P-NP@NiFe-PBA纳米立方体和CoFe-P-NP@CoFe-PBA纳米盒。这项工作不仅提供了在PBA纳米笼上原位锚定pMP-NPs的合成策略，还通过调节从金属磷化物到PBA底物的电子转移，为优化OER的吉布斯自由能提供了新的见解。

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在多孔普鲁士蓝类似物纳米笼中原位锚定多金属磷化物纳米颗粒以促进析氧催化

In Situ Anchoring Polymetallic Phosphide Nanoparticles within Porous Prussian Blue Analogue Nanocages for Boosting Oxygen Evolution Catalysis.

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