Enhanced acetone sensing performance based on hollow coral-like SnO_2-Zn0 composite nanofibers

Li Yujie; Zhang Haiming; Zhang Xiaohui; Wei Lijuan; Zhang Yue; Hai Guangyuan; Sun Yuxuan

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Enhanced acetone sensing performance based on hollow coral-like SnO_2-Zn0 composite nanofibers

机译：基于空心珊瑚状SnO_2-Zn0复合纳米纤维的丙酮传感性能增强

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The acetone sensors are designed based on hollow coral-like SnO2-ZnO nanofibers (NFs) composite structure through a simple one-step electrospinning method in this paper. Compared with pure SnO2, SnO2-ZnO sensor has greatly enhanced acetone sensing performance including excellent sensitivity, rapid response which are due to its larger specific surface area, more oxygen vacancies and n-n composite structures. The response of SnO2-ZnO NFs sensor (110.95) is 20 times higher than that of the SnO2 sensor (5.52) and achieves a rapid response/recovery process (within 9/5 s) at 150 degrees C in 100 ppm acetone concentration which is expected to be applied in the non-invasive detection of diabetes. Moreover, the mechanism of the enhanced gas sensing based on hollow coral-like SnO2-ZnO NFs is analyzed in depth from energy band of n-n metal oxide semiconductors composite structures.

机译：本文通过一种简单的一步电纺方法，在中空珊瑚状SnO2-ZnO纳米纤维（NFs）复合结构的基础上设计了丙酮传感器。与纯SnO2相比，SnO2-ZnO传感器大大提高了丙酮的传感性能，包括出色的灵敏度，快速响应，这归因于其较大的比表面积，更多的氧空位和n-n复合结构。 SnO2-ZnO NFs传感器（110.95）的响应比SnO2传感器（5.52）的响应高20倍，并且在150摄氏度，100 ppm丙酮浓度下实现了快速响应/恢复过程（9/5 s之内）。有望应用于糖尿病的非侵入性检测。此外，从n-n金属氧化物半导体复合结构的能带出发，深入分析了基于空心珊瑚状SnO2-ZnO NFs的增强气体传感机理。

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来源
《Journal of materials science 》 |2019年第16期| 15734-15743| 共10页
作者
Li Yujie; Zhang Haiming; Zhang Xiaohui; Wei Lijuan; Zhang Yue; Hai Guangyuan; Sun Yuxuan;
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作者单位

Tianjin Polytech Univ Sch Mat Sci & Engn Tianjin 300387 Peoples R China|Tianjin Univ Phys Dept Renai Coll Tianjin 301636 Peoples R China;

Tianjin Polytech Univ Sch Mat Sci & Engn Tianjin 300387 Peoples R China;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
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正文语种 eng
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1. Hollow hierarchical TiO_2-SnO_2-TiO_2 composite nanofibers with increased active-sites and charge transfer for enhanced acetone sensing performance [J] . Tingting Wang, Liang Cheng Sensors and Actuators . 2021 ,第May期

机译：中空等级TiO_2-SnO_2-TiO_2复合纳米纤维具有增加的活性点和电荷转移，用于增强丙酮感测性能
2. The enhanced gas-sensing and photocatalytic performance of hollow and hollow core shell SnO2-based nanofibers induced by the Kirkendall effect (vol 42, pg 1817, 2016) [J] . Zhou Huimin, Li Zhiyong, Niu Xiao, CERAMICS INTERNATIONAL . 2016 ,第6期

机译：Kirkendall效应引起的中空和中空核壳SnO2基纳米纤维的增强的气敏和光催化性能（vol 42，pg 1817，2016）
3. The enhanced gas-sensing and photocatalytic performance of hollow and hollow core-shell SnO2-based nanofibers induced by the Kirkendall effect [J] . Zhou Huimin, Li Zhiyong, Niu Xiao, CERAMICS INTERNATIONAL . 2016 ,第1aPta2期

机译：Kirkendall效应增强中空和中空核壳型SnO2基纳米纤维的气敏和光催化性能
4. Enhanced Formaldehyde Sensing Performance Based on SnO2 Nanosheets/Titanium Carbide (MXene) Composites [C] . Gaoqiang Niu, Rajendran Ramachandran, Changhui Zhao, International Conference on Solid-State Sensors, Actuators and Microsystems . 2021

机译：基于SnO2纳米片/碳化钛（MXENE）复合材料增强甲醛传感性能
5. Cellulose Nano-Composites for Performance Enhancement of Portland Cement-Based Materials [D] . Kamasamudram, Kavya Shirisha. 2019

机译：纤维素纳米复合材料，用于平板水泥基材料的性能增强
6. A two-step synthesis of nanosheet-covered fibers based on α-Fe2O3/NiO composites towards enhanced acetone sensing [O] . Mahmood ul Haq, Zhen Wen, Ziyue Zhang, -1

机译：基于α-Fe2O3/ NiO复合材料的两步合成纳米片覆盖的纤维用于增强丙酮感测
7. Synthesis, Characterization and Acetone Sensing Performance of ZnFe2O4 Hollow Spheres/RGO Composites [O] . Kaidi Wu, Yifan Luo, Chao Zhang 2019

机译：ZnFe2O4空心球/ RGO复合材料的合成，表征和丙酮感应性能

Enhanced acetone sensing performance based on hollow coral-like SnO_2-Zn0 composite nanofibers

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