Concave ZnFe2O4 Hollow Octahedral Nanocages Derived from Fe-Doped MOF‑5 for High-Performance Acetone Sensing at Low-Energy Consumption

Concave ZnFe2O4 Hollow Octahedral Nanocages Derived from Fe-Doped MOF‑5 for High-Performance Acetone Sensing at Low-Energy Consumption

Herein, through a morphology-inherited annealing treatment of a hollow Fe-doped MOF-5 octahedron as the self-sacrificing template, we report the synthesis of concave ZnFe2O4 hollow octahedral nanocages as sensing materials, which exhibited high performance, including unprecedented excellent sensitiv...

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Veröffentlicht in:Inorganic chemistry 2017-11, Vol.56 (22), p.13646-13650
Hauptverfasser: Song, Xue-Zhi, Meng, Yu-Lan, Tan, Zhenquan, Qiao, Liang, Huang, Teng, Wang, Xiao-Feng
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container_end_page 13650
container_issue 22
container_start_page 13646
container_title Inorganic chemistry
container_volume 56
creator Song, Xue-Zhi
Meng, Yu-Lan
Tan, Zhenquan
Qiao, Liang
Huang, Teng
Wang, Xiao-Feng
description Herein, through a morphology-inherited annealing treatment of a hollow Fe-doped MOF-5 octahedron as the self-sacrificing template, we report the synthesis of concave ZnFe2O4 hollow octahedral nanocages as sensing materials, which exhibited high performance, including unprecedented excellent sensitivity, good selectivity, and cyclic stability at ultralow working temperature (120 °C).
doi_str_mv 10.1021/acs.inorgchem.7b02425
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title Concave ZnFe2O4 Hollow Octahedral Nanocages Derived from Fe-Doped MOF‑5 for High-Performance Acetone Sensing at Low-Energy Consumption
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