Iridium-Based Cubic Nanocages with 1.1-nm-Thick Walls: A Highly Efficient and Durable Electrocatalyst for Water Oxidation in an Acidic Medium

Jiawei Zhu; Zitao Chen; Minghao Xie; Zhiheng Lyu; Miaofang Chi; Manos Mavrikakis; Wanqin Jin; Younan Xia

doi:10.1002/anie.201901732

Iridium-Based Cubic Nanocages with 1.1-nm-Thick Walls: A Highly Efficient and Durable Electrocatalyst for Water Oxidation in an Acidic Medium

Jiawei Zhu, Zitao Chen, Minghao Xie, Zhiheng Lyu, Miaofang Chi, Manos Mavrikakis, Wanqin Jin, Younan Xia

化工学院

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111 引用（Scopus）

摘要

We report a highly active and durable water oxidation electrocatalyst based on cubic nanocages with a composition of Ir₄₄Pd₁₀, together with well-defined {100} facets and porous walls of roughly 1.1 nm in thickness. Such nanocages substantially outperform all the water oxidation electrocatalysts reported in literature, with an overpotential of only 226 mV for reaching 10 mA cm⁻²_geo at a loading of Ir as low as 12.5 μg_Ir cm⁻² on the electrode in acidic media. When benchmarked against a commercial Ir/C electrocatalyst at 250 mV of overpotential, such a nanocage-based catalyst not only shows enhancements (18.1- and 26.2-fold, respectively) in terms of mass (1.99 A mg⁻¹_Ir) and specific (3.93 mA cm⁻²_Ir) activities, but also greatly enhanced durability. The enhancements can be attributed to a combination of multiple merits, including a high utilization efficiency of Ir atoms and an open structure beneficial to the electrochemical oxidation of Ir to the active form of IrO_x.

源语言	英语
页（从-至）	7244-7248
页数	5
期刊	Angewandte Chemie - International Edition
卷	58
期	22
DOI	https://doi.org/10.1002/anie.201901732
出版状态	已出版 - 27 5月 2019

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title = "Iridium-Based Cubic Nanocages with 1.1-nm-Thick Walls: A Highly Efficient and Durable Electrocatalyst for Water Oxidation in an Acidic Medium",

abstract = "We report a highly active and durable water oxidation electrocatalyst based on cubic nanocages with a composition of Ir44Pd10, together with well-defined {100} facets and porous walls of roughly 1.1 nm in thickness. Such nanocages substantially outperform all the water oxidation electrocatalysts reported in literature, with an overpotential of only 226 mV for reaching 10 mA cm−2geo at a loading of Ir as low as 12.5 μgIr cm−2 on the electrode in acidic media. When benchmarked against a commercial Ir/C electrocatalyst at 250 mV of overpotential, such a nanocage-based catalyst not only shows enhancements (18.1- and 26.2-fold, respectively) in terms of mass (1.99 A mg−1Ir) and specific (3.93 mA cm−2Ir) activities, but also greatly enhanced durability. The enhancements can be attributed to a combination of multiple merits, including a high utilization efficiency of Ir atoms and an open structure beneficial to the electrochemical oxidation of Ir to the active form of IrOx.",

keywords = "acidic media, iridium, nanocages, ultrathin walls, water oxidation",

author = "Jiawei Zhu and Zitao Chen and Minghao Xie and Zhiheng Lyu and Miaofang Chi and Manos Mavrikakis and Wanqin Jin and Younan Xia",

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T2 - A Highly Efficient and Durable Electrocatalyst for Water Oxidation in an Acidic Medium

AU - Zhu, Jiawei

AU - Chen, Zitao

AU - Xie, Minghao

AU - Lyu, Zhiheng

AU - Chi, Miaofang

AU - Mavrikakis, Manos

AU - Jin, Wanqin

AU - Xia, Younan

PY - 2019/5/27

Y1 - 2019/5/27

N2 - We report a highly active and durable water oxidation electrocatalyst based on cubic nanocages with a composition of Ir44Pd10, together with well-defined {100} facets and porous walls of roughly 1.1 nm in thickness. Such nanocages substantially outperform all the water oxidation electrocatalysts reported in literature, with an overpotential of only 226 mV for reaching 10 mA cm−2geo at a loading of Ir as low as 12.5 μgIr cm−2 on the electrode in acidic media. When benchmarked against a commercial Ir/C electrocatalyst at 250 mV of overpotential, such a nanocage-based catalyst not only shows enhancements (18.1- and 26.2-fold, respectively) in terms of mass (1.99 A mg−1Ir) and specific (3.93 mA cm−2Ir) activities, but also greatly enhanced durability. The enhancements can be attributed to a combination of multiple merits, including a high utilization efficiency of Ir atoms and an open structure beneficial to the electrochemical oxidation of Ir to the active form of IrOx.

AB - We report a highly active and durable water oxidation electrocatalyst based on cubic nanocages with a composition of Ir44Pd10, together with well-defined {100} facets and porous walls of roughly 1.1 nm in thickness. Such nanocages substantially outperform all the water oxidation electrocatalysts reported in literature, with an overpotential of only 226 mV for reaching 10 mA cm−2geo at a loading of Ir as low as 12.5 μgIr cm−2 on the electrode in acidic media. When benchmarked against a commercial Ir/C electrocatalyst at 250 mV of overpotential, such a nanocage-based catalyst not only shows enhancements (18.1- and 26.2-fold, respectively) in terms of mass (1.99 A mg−1Ir) and specific (3.93 mA cm−2Ir) activities, but also greatly enhanced durability. The enhancements can be attributed to a combination of multiple merits, including a high utilization efficiency of Ir atoms and an open structure beneficial to the electrochemical oxidation of Ir to the active form of IrOx.

KW - acidic media

KW - iridium

KW - nanocages

KW - ultrathin walls

KW - water oxidation

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Iridium-Based Cubic Nanocages with 1.1-nm-Thick Walls: A Highly Efficient and Durable Electrocatalyst for Water Oxidation in an Acidic Medium

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