基于镍纳米颗粒掺杂的类立方MOF-5牺牲模板的增强丙酮传感性能

Enhanced Acetone Sensing Property of a Sacrificial Template Based on Cubic-Like MOF-5 Doped by Ni Nanoparticles.

作者信息

Zhang Ning, Li Huijun, Xu Zhouqing, Yuan Rui, Xu Yongkun, Cui Yanyu

机构信息

Department of Chemistry and Chemical Engineering, Henan Polytechnic University, Jiaozuo 454000, China.

出版信息

Nanomaterials (Basel). 2020 Feb 22;10(2):386. doi: 10.3390/nano10020386.

DOI:10.3390/nano10020386

PMID:32098442

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7075315/

Abstract

Studying an acetone sensor with prominent sensitivity and selectivity is of great significance for the development of portable diabetes monitoring system. In this paper, cubic-like NiO/ZnO composites with different contents of Ni were successfully synthesized by modifying MOF-5 with Ni-doped. The structure and morphology of the prepared composites were characterized by XRD, XPS, and SEM. The experimental results show that the NiO/ZnO composite showed an enhanced gas sensing property to acetone compared to pure ZnO, and the composites showed the maximum response value when Ni loading amount was 5 at%. The response value of the 5% NiO/ZnO composite to acetone (500 ppm) at the optimum operating temperature (340 °C) is 7.3 times as that of pure ZnO. At the same time, the 5% NiO/ZnO composite has excellent selectivity and reproducibility for acetone. The gas sensing mechanism of the heterojunction sensor was described.

摘要

研究一种具有卓越灵敏度和选择性的丙酮传感器对便携式糖尿病监测系统的发展具有重要意义。本文通过用镍掺杂改性MOF-5成功合成了具有不同镍含量的立方状NiO/ZnO复合材料。采用XRD、XPS和SEM对制备的复合材料的结构和形貌进行了表征。实验结果表明，与纯ZnO相比，NiO/ZnO复合材料对丙酮表现出增强的气敏性能，当镍负载量为5 at%时，复合材料表现出最大响应值。5% NiO/ZnO复合材料在最佳工作温度（340℃）下对丙酮（500 ppm）的响应值是纯ZnO的7.3倍。同时，5% NiO/ZnO复合材料对丙酮具有优异的选择性和重现性。描述了异质结传感器的气敏机理。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/559e/7075315/6ad69520e34a/nanomaterials-10-00386-g001.jpg

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Enhanced Acetone Sensing Property of a Sacrificial Template Based on Cubic-Like MOF-5 Doped by Ni Nanoparticles.基于镍纳米颗粒掺杂的类立方MOF-5牺牲模板的增强丙酮传感性能

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基于镍纳米颗粒掺杂的类立方MOF-5牺牲模板的增强丙酮传感性能

Enhanced Acetone Sensing Property of a Sacrificial Template Based on Cubic-Like MOF-5 Doped by Ni Nanoparticles.

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