Phase transformation of PiMoCo and their electrocatalytic activity for oxygen evolution reaction

Mengsi Cheng; Hongzhi Wang; Huichao Liu; Jiali Yu; Guangtao Cong; Chunyan Hu; Yankun Huang; Jiatao Zhang; Muwei Ji; Caizhen Zhu; Jian Xu

doi:10.1039/d0ce00870b

Phase transformation of PiMoCo and their electrocatalytic activity for oxygen evolution reaction

Mengsi Cheng, Hongzhi Wang, Huichao Liu, Jiali Yu, Guangtao Cong, Chunyan Hu, Yankun Huang, Jiatao Zhang, Muwei Ji^*, Caizhen Zhu, Jian Xu

^*此作品的通讯作者

化学与化工学院

科研成果: 期刊稿件 › 文章 › 同行评审

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摘要

Electrocatalysis caused by the crystallinity of catalysts is viewed as a key role of the electrocatalytic activity, but there are a few reports on it. Herein, we report the electrocatalytic activity depending on the crystallinity of Mo-doped Co₃(PO₄)₂(PiMoCo). A series of PiMoCo with different crystalline structures were controllably preparedviaco-precipitation and heat treatment. The PiMoCos obtained at room temperature and 800 °C were crystalline, while those obtained at 300-500 °C were amorphous. The electrocatalysis of PiMoCo depended on their phase transformation, which can be controlled by the temperature of heat treatment. The electrochemical performances for oxygen evolution reaction show that the PiMoCos with the amorphous phase exhibit high activity and stability. This work provides an insight into the electrocatalysis performance depending on the crystallinity of catalysts and the water molecules in the lattice of PiMoCo.

源语言	英语
页（从-至）	6003-6009
页数	7
期刊	CrystEngComm
卷	22
期	36
DOI	https://doi.org/10.1039/d0ce00870b
出版状态	已出版 - 28 9月 2020

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title = "Phase transformation of PiMoCo and their electrocatalytic activity for oxygen evolution reaction",

abstract = "Electrocatalysis caused by the crystallinity of catalysts is viewed as a key role of the electrocatalytic activity, but there are a few reports on it. Herein, we report the electrocatalytic activity depending on the crystallinity of Mo-doped Co3(PO4)2(PiMoCo). A series of PiMoCo with different crystalline structures were controllably preparedviaco-precipitation and heat treatment. The PiMoCos obtained at room temperature and 800 °C were crystalline, while those obtained at 300-500 °C were amorphous. The electrocatalysis of PiMoCo depended on their phase transformation, which can be controlled by the temperature of heat treatment. The electrochemical performances for oxygen evolution reaction show that the PiMoCos with the amorphous phase exhibit high activity and stability. This work provides an insight into the electrocatalysis performance depending on the crystallinity of catalysts and the water molecules in the lattice of PiMoCo.",

author = "Mengsi Cheng and Hongzhi Wang and Huichao Liu and Jiali Yu and Guangtao Cong and Chunyan Hu and Yankun Huang and Jiatao Zhang and Muwei Ji and Caizhen Zhu and Jian Xu",

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doi = "10.1039/d0ce00870b",

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T1 - Phase transformation of PiMoCo and their electrocatalytic activity for oxygen evolution reaction

AU - Cheng, Mengsi

AU - Wang, Hongzhi

AU - Liu, Huichao

AU - Yu, Jiali

AU - Cong, Guangtao

AU - Hu, Chunyan

AU - Huang, Yankun

AU - Zhang, Jiatao

AU - Ji, Muwei

AU - Zhu, Caizhen

AU - Xu, Jian

PY - 2020/9/28

Y1 - 2020/9/28

N2 - Electrocatalysis caused by the crystallinity of catalysts is viewed as a key role of the electrocatalytic activity, but there are a few reports on it. Herein, we report the electrocatalytic activity depending on the crystallinity of Mo-doped Co3(PO4)2(PiMoCo). A series of PiMoCo with different crystalline structures were controllably preparedviaco-precipitation and heat treatment. The PiMoCos obtained at room temperature and 800 °C were crystalline, while those obtained at 300-500 °C were amorphous. The electrocatalysis of PiMoCo depended on their phase transformation, which can be controlled by the temperature of heat treatment. The electrochemical performances for oxygen evolution reaction show that the PiMoCos with the amorphous phase exhibit high activity and stability. This work provides an insight into the electrocatalysis performance depending on the crystallinity of catalysts and the water molecules in the lattice of PiMoCo.

AB - Electrocatalysis caused by the crystallinity of catalysts is viewed as a key role of the electrocatalytic activity, but there are a few reports on it. Herein, we report the electrocatalytic activity depending on the crystallinity of Mo-doped Co3(PO4)2(PiMoCo). A series of PiMoCo with different crystalline structures were controllably preparedviaco-precipitation and heat treatment. The PiMoCos obtained at room temperature and 800 °C were crystalline, while those obtained at 300-500 °C were amorphous. The electrocatalysis of PiMoCo depended on their phase transformation, which can be controlled by the temperature of heat treatment. The electrochemical performances for oxygen evolution reaction show that the PiMoCos with the amorphous phase exhibit high activity and stability. This work provides an insight into the electrocatalysis performance depending on the crystallinity of catalysts and the water molecules in the lattice of PiMoCo.

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VL - 22

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EP - 6009

JO - CrystEngComm

JF - CrystEngComm

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ER -

Phase transformation of PiMoCo and their electrocatalytic activity for oxygen evolution reaction

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