Bulk OsO2 Single Crystals: Superior Catalysts for Water Oxidation

Guojian Zhao; Zhihao Li; Ziang Meng; Shucheng Wang; Li Liu; Zhiyuan Duan; Xiaoning Wang; Hongyu Chen; Yuzhou He; Jingyu Li; Sixu Jiang; Xiaoyang Tan; Qinghua Zhang; Qianfan Zhang; Peixin Qin; Zhiqi Liu

doi:10.1002/adfm.202600044

Bulk OsO₂ Single Crystals: Superior Catalysts for Water Oxidation

Guojian Zhao
, Zhihao Li
, Ziang Meng^*
, Shucheng Wang
, Li Liu
, Zhiyuan Duan
, Xiaoning Wang
, Hongyu Chen
, Yuzhou He
, Jingyu Li
, Sixu Jiang
, Xiaoyang Tan
, Qinghua Zhang^*
, Qianfan Zhang^*
, Peixin Qin^*
, Zhiqi Liu^*

^*Corresponding author for this work

School of Materials Science and Engineering

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

Abstract

Although rutile RuO₂ has been a well-known and almost the best oxygen evolution reaction (OER) catalyst, the OER properties for the similar rutile oxide OsO₂ with the same group element with Ru have been unknown, mainly due to long-standing synthesis difficulties. In this work, we report the successful synthesis of high-quality OsO₂ single crystals, and the ground micrometer-size single crystals are chemically stable in alkaline solutions and exhibit robust OER performance. In sharp contrast, OsO₂ nanopowder reacts quickly with KOH solutions and cannot work for OER. Compared with commercial RuO₂ nanopowder, the OsO₂ single crystals show comparable catalytic current densities, remarkably lower overpotentials at high current densities and better stability. These findings question the universal applicability of nanoscaling and highlight crystal integrity as a key descriptor for achieving stable and efficient OER electrocatalysis.

Original language	English
Journal	Advanced Functional Materials
DOIs	https://doi.org/10.1002/adfm.202600044
State	Accepted/In press - 2026

Keywords

OER performance
OsO single crystals
RuO
bulk single crystal catalysts
high stability

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10.1002/adfm.202600044

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@article{9704cd0014f64cc68774457ac852436a,

title = "Bulk OsO2 Single Crystals: Superior Catalysts for Water Oxidation",

abstract = "Although rutile RuO2 has been a well-known and almost the best oxygen evolution reaction (OER) catalyst, the OER properties for the similar rutile oxide OsO2 with the same group element with Ru have been unknown, mainly due to long-standing synthesis difficulties. In this work, we report the successful synthesis of high-quality OsO2 single crystals, and the ground micrometer-size single crystals are chemically stable in alkaline solutions and exhibit robust OER performance. In sharp contrast, OsO2 nanopowder reacts quickly with KOH solutions and cannot work for OER. Compared with commercial RuO2 nanopowder, the OsO2 single crystals show comparable catalytic current densities, remarkably lower overpotentials at high current densities and better stability. These findings question the universal applicability of nanoscaling and highlight crystal integrity as a key descriptor for achieving stable and efficient OER electrocatalysis.",

keywords = "OER performance, OsO single crystals, RuO, bulk single crystal catalysts, high stability",

author = "Guojian Zhao and Zhihao Li and Ziang Meng and Shucheng Wang and Li Liu and Zhiyuan Duan and Xiaoning Wang and Hongyu Chen and Yuzhou He and Jingyu Li and Sixu Jiang and Xiaoyang Tan and Qinghua Zhang and Qianfan Zhang and Peixin Qin and Zhiqi Liu",

note = "Publisher Copyright: {\textcopyright} 2026 Wiley-VCH GmbH.",

year = "2026",

doi = "10.1002/adfm.202600044",

language = "英语",

journal = "Advanced Functional Materials",

issn = "1616-301X",

publisher = "John Wiley and Sons Inc",

}

TY - JOUR

T1 - Bulk OsO2 Single Crystals

T2 - Superior Catalysts for Water Oxidation

AU - Zhao, Guojian

AU - Li, Zhihao

AU - Meng, Ziang

AU - Wang, Shucheng

AU - Liu, Li

AU - Duan, Zhiyuan

AU - Wang, Xiaoning

AU - Chen, Hongyu

AU - He, Yuzhou

AU - Li, Jingyu

AU - Jiang, Sixu

AU - Tan, Xiaoyang

AU - Zhang, Qinghua

AU - Zhang, Qianfan

AU - Qin, Peixin

AU - Liu, Zhiqi

PY - 2026

Y1 - 2026

N2 - Although rutile RuO2 has been a well-known and almost the best oxygen evolution reaction (OER) catalyst, the OER properties for the similar rutile oxide OsO2 with the same group element with Ru have been unknown, mainly due to long-standing synthesis difficulties. In this work, we report the successful synthesis of high-quality OsO2 single crystals, and the ground micrometer-size single crystals are chemically stable in alkaline solutions and exhibit robust OER performance. In sharp contrast, OsO2 nanopowder reacts quickly with KOH solutions and cannot work for OER. Compared with commercial RuO2 nanopowder, the OsO2 single crystals show comparable catalytic current densities, remarkably lower overpotentials at high current densities and better stability. These findings question the universal applicability of nanoscaling and highlight crystal integrity as a key descriptor for achieving stable and efficient OER electrocatalysis.

AB - Although rutile RuO2 has been a well-known and almost the best oxygen evolution reaction (OER) catalyst, the OER properties for the similar rutile oxide OsO2 with the same group element with Ru have been unknown, mainly due to long-standing synthesis difficulties. In this work, we report the successful synthesis of high-quality OsO2 single crystals, and the ground micrometer-size single crystals are chemically stable in alkaline solutions and exhibit robust OER performance. In sharp contrast, OsO2 nanopowder reacts quickly with KOH solutions and cannot work for OER. Compared with commercial RuO2 nanopowder, the OsO2 single crystals show comparable catalytic current densities, remarkably lower overpotentials at high current densities and better stability. These findings question the universal applicability of nanoscaling and highlight crystal integrity as a key descriptor for achieving stable and efficient OER electrocatalysis.

KW - OER performance

KW - OsO single crystals

KW - RuO

KW - bulk single crystal catalysts

KW - high stability

UR - https://www.scopus.com/pages/publications/105028972092

U2 - 10.1002/adfm.202600044

DO - 10.1002/adfm.202600044

M3 - 文章

AN - SCOPUS:105028972092

SN - 1616-301X

JO - Advanced Functional Materials

JF - Advanced Functional Materials

ER -

Bulk OsO₂ Single Crystals: Superior Catalysts for Water Oxidation

Abstract

Keywords

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