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Innenrücktitelbild: Surviving High-Temperature Calcination: ZrO₂-Induced Hematite Nanotubes for Photoelectrochemical Water Oxidation (Angew. Chem. 15/2017)

Chengcheng Li

Key Laboratory for Green Chemical Technology of Ministry of Education, School of Chemical Engineering and Technology, Collaborative Innovation Center of Chemical Science and Engineering, Tianjin University, Weijin Road 92, Tianjin, 300072 China

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Ang Li,

Ang Li

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Zhibin Luo,

Zhibin Luo

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Jijie Zhang,

Jijie Zhang

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Xiaoxia Chang,

Xiaoxia Chang

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Zhiqi Huang,

Zhiqi Huang

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Dr. Tuo Wang,

Corresponding Author

Dr. Tuo Wang

[email protected]

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Prof. Dr. Jinlong Gong,

Corresponding Author

Prof. Dr. Jinlong Gong

[email protected]

orcid.org/0000-0001-7263-318X

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Chengcheng Li,

Chengcheng Li

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Ang Li,

Ang Li

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Zhibin Luo,

Zhibin Luo

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Jijie Zhang,

Jijie Zhang

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Xiaoxia Chang,

Xiaoxia Chang

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Zhiqi Huang,

Zhiqi Huang

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Dr. Tuo Wang,

Corresponding Author

Dr. Tuo Wang

[email protected]

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Prof. Dr. Jinlong Gong,

Corresponding Author

Prof. Dr. Jinlong Gong

[email protected]

orcid.org/0000-0001-7263-318X

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First published: 10 March 2017

https://doi.org/10.1002/ange.201702266

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Graphical Abstract

Fe₂O₃-Nanoröhren weisen außergewöhnliche elektrische, optische und magnetische Eigenschaften auf, sie sind aber anfällig gegen die zur Produktion kristalliner Materialien benötigte Hochtemperaturkalzinierung (HTC). T. Wang, J. Gong et al. präsentieren in ihrer Zuschrift auf S. 4214 eine Methode zur Herstellung von HTC-resistenten Fe₂O₃-Nanoröhren als Photoanoden für die Wasserspaltung. Eine ZrO₂-Hülle wird durch Atomlagenabscheidung auf hydrothermal produzierten FeOOH-Nanostäben erzeugt, und eine anschließende Hochtemperatur-Festkörperreaktion wandelt die Nanostäbe in Zr-dekorierte Fe₂O₃-Nanoröhren um.