Hollow Mesoporous Fe2O3 Nanospindles/CNTs Composite: An Efficient Catalyst for High-Performance Li-O2 Batteries

Hairong Xue; Yiou Ma; Tao Wang; Hao Gong; Bin Gao; Xiaoli Fan; Juanjuan Yan; Xianguang Meng; Songtao Zhang; Jianping He

doi:10.3389/fchem.2019.00511

Hollow Mesoporous Fe₂O₃ Nanospindles/CNTs Composite: An Efficient Catalyst for High-Performance Li-O₂ Batteries

Hairong Xue, Yiou Ma, Tao Wang, Hao Gong, Bin Gao, Xiaoli Fan, Juanjuan Yan, Xianguang Meng, Songtao Zhang, Jianping He

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

3 Scopus citations

Abstract

The design of mesoporous or hollow transition metal oxide/carbon hybrid catalysts is very important for rechargeable Li-O₂ batteries. Here, spindle-like Fe₂O₃ with hollow mesoporous structure on CNTs backbones (Fe₂O₃-HMNS@CNT) are prepared by a facile hydrolysis process combined with low temperature calcination. Within this hybrid structure, the hollow interior and mesoporous shell of the Fe₂O₃ nanospindles provide high specific surface area and abundant catalytical active sites, which is also beneficial to facilitating the electrolyte infiltration and oxygen diffusion. Furthermore, the crisscrossed CNTs form a three-dimensional (3D) conductive network to accelerate and stabilize the electron transport, which leads to the decreasing internal resistance of electrode. As a cathodic catalyst for Li-O₂ batteries, the Fe₂O₃-HMNS@CNT composite exhibits high specific capacity and excellent cycling stability (more than 100 cycles).

Original language	English
Article number	511
Journal	Frontiers in Chemistry
Volume	7
DOIs	https://doi.org/10.3389/fchem.2019.00511
State	Published - 25 Jul 2019
Externally published	Yes

Keywords

carbon support
cathodic catalyst
hollow mesoporous structure
Li-O batteries
transition metal oxides

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10.3389/fchem.2019.00511

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title = "Hollow Mesoporous Fe2O3 Nanospindles/CNTs Composite: An Efficient Catalyst for High-Performance Li-O2 Batteries",

abstract = "The design of mesoporous or hollow transition metal oxide/carbon hybrid catalysts is very important for rechargeable Li-O2 batteries. Here, spindle-like Fe2O3 with hollow mesoporous structure on CNTs backbones (Fe2O3-HMNS@CNT) are prepared by a facile hydrolysis process combined with low temperature calcination. Within this hybrid structure, the hollow interior and mesoporous shell of the Fe2O3 nanospindles provide high specific surface area and abundant catalytical active sites, which is also beneficial to facilitating the electrolyte infiltration and oxygen diffusion. Furthermore, the crisscrossed CNTs form a three-dimensional (3D) conductive network to accelerate and stabilize the electron transport, which leads to the decreasing internal resistance of electrode. As a cathodic catalyst for Li-O2 batteries, the Fe2O3-HMNS@CNT composite exhibits high specific capacity and excellent cycling stability (more than 100 cycles).",

keywords = "carbon support, cathodic catalyst, hollow mesoporous structure, Li-O batteries, transition metal oxides",

author = "Hairong Xue and Yiou Ma and Tao Wang and Hao Gong and Bin Gao and Xiaoli Fan and Juanjuan Yan and Xianguang Meng and Songtao Zhang and Jianping He",

note = "Publisher Copyright: {\textcopyright} Copyright {\textcopyright} 2019 Xue, Ma, Wang, Gong, Gao, Fan, Yan, Meng, Zhang and He.",

year = "2019",

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day = "25",

doi = "10.3389/fchem.2019.00511",

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AU - Xue, Hairong

AU - Ma, Yiou

AU - Wang, Tao

AU - Gong, Hao

AU - Gao, Bin

AU - Fan, Xiaoli

AU - Yan, Juanjuan

AU - Meng, Xianguang

AU - Zhang, Songtao

AU - He, Jianping

PY - 2019/7/25

Y1 - 2019/7/25

N2 - The design of mesoporous or hollow transition metal oxide/carbon hybrid catalysts is very important for rechargeable Li-O2 batteries. Here, spindle-like Fe2O3 with hollow mesoporous structure on CNTs backbones (Fe2O3-HMNS@CNT) are prepared by a facile hydrolysis process combined with low temperature calcination. Within this hybrid structure, the hollow interior and mesoporous shell of the Fe2O3 nanospindles provide high specific surface area and abundant catalytical active sites, which is also beneficial to facilitating the electrolyte infiltration and oxygen diffusion. Furthermore, the crisscrossed CNTs form a three-dimensional (3D) conductive network to accelerate and stabilize the electron transport, which leads to the decreasing internal resistance of electrode. As a cathodic catalyst for Li-O2 batteries, the Fe2O3-HMNS@CNT composite exhibits high specific capacity and excellent cycling stability (more than 100 cycles).

AB - The design of mesoporous or hollow transition metal oxide/carbon hybrid catalysts is very important for rechargeable Li-O2 batteries. Here, spindle-like Fe2O3 with hollow mesoporous structure on CNTs backbones (Fe2O3-HMNS@CNT) are prepared by a facile hydrolysis process combined with low temperature calcination. Within this hybrid structure, the hollow interior and mesoporous shell of the Fe2O3 nanospindles provide high specific surface area and abundant catalytical active sites, which is also beneficial to facilitating the electrolyte infiltration and oxygen diffusion. Furthermore, the crisscrossed CNTs form a three-dimensional (3D) conductive network to accelerate and stabilize the electron transport, which leads to the decreasing internal resistance of electrode. As a cathodic catalyst for Li-O2 batteries, the Fe2O3-HMNS@CNT composite exhibits high specific capacity and excellent cycling stability (more than 100 cycles).

KW - carbon support

KW - cathodic catalyst

KW - hollow mesoporous structure

KW - Li-O batteries

KW - transition metal oxides

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DO - 10.3389/fchem.2019.00511

M3 - 文章

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SN - 2296-2646

VL - 7

JO - Frontiers in Chemistry

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M1 - 511

ER -

Hollow Mesoporous Fe₂O₃ Nanospindles/CNTs Composite: An Efficient Catalyst for High-Performance Li-O₂ Batteries

Abstract

Keywords

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