期刊
SURFACES AND INTERFACES
卷 25, 期 -, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.surfin.2021.101295
关键词
Zn2GeO4; Rods; Hydrogen peroxide; Non-enzymatic; Sensor
类别
资金
- Natural Science Foundation of China [11564042]
- Precious Metal Materials Genetic Engineering Major Project of Yunnan Province [2019ZE001]
- Department of Science and Technology of Yunnan Province [2018FB091, 2019FB129]
- Project of the Department of Education of Yunnan Province [2019J0001]
In this study, one-dimensional Zn2GeO4 rods were successfully grown in-situ on Ni foam using a hydrothermal route, with ethylenediamine playing a critical role. The Zn2GeO4/NF electrode was found to exhibit high sensitivity, wide linear detection range, low detection limit, excellent selectivity, and stability towards H2O2, attributed to factors such as the intrinsic nature of Zn2GeO4, unique microstructure, and seamless contact with NF.
One-dimensional (1D) Zn2GeO4 rods were in-situ grown on Ni foam (NF) using a ethylenediamine (En)/water mixed solvent by a hydrothermal route in one single step. Such rhombohedral phase Zn2GeO4 rods are 1-2 mu m in diameter and a few micrometers in length. Ethylenediamine is found to play a critical role in coordinating with starting zinc and germanium ions and acting as template. The Zn2GeO4/NF was developed as a new noneenzymatic hydrogen peroxide (H2O2) sensor. In electrochemical studies, the Zn2GeO4/NF electrode exhibits high sensitivity (3974 mu M mM(-1) cm (-2)), wide linear detection range (1-4000 mu M), fast response (<9 s), low detection limit (1 mu M), excellent selectivity and stability towards H2O2. Several factors such as intrinsic nature of Zn2GeO4, the unique microstructure and the seamless contact with NF are believed to attributed to the excellent electrochemical sensing performances.
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