advanced
Guang-Zhong Xie, Ting Kang, Yong Zhou, Tao Xie, Hui-Ling Tai, Ya-Dong Jiang. QCM Sensors Based on PEI Films for CO2 Detection[J]. Journal of Electronic Science and Technology, 2015, 13(2): 181-187. DOI: 10.3969/j.issn.1674-862X.2015.02.017
Citation: Guang-Zhong Xie, Ting Kang, Yong Zhou, Tao Xie, Hui-Ling Tai, Ya-Dong Jiang. QCM Sensors Based on PEI Films for CO2 Detection[J]. Journal of Electronic Science and Technology, 2015, 13(2): 181-187. DOI: 10.3969/j.issn.1674-862X.2015.02.017
shu

QCM Sensors Based on PEI Films for CO2 Detection

doi: 10.3969/j.issn.1674-862X.2015.02.017

  • School of Optoelectronic Information,University of Electronic Science and Technology of China,Chengdu 610054,China

Funds: 

This work was supported by the National Natural Science Foundation of China under Grant No. 61176006 and No. 61006036, and the Specialized Research Fund for the Doctoral Program of Higher Education under Grant No. 20120185110012.

More Information
  • Author Bio:

    Guang-Zhong Xie research interests are sensitive materials and sensors, gzxie@uestc.edu.cn;
    Ting Kang, xiaobu0401@126.com;
    Yong Zhou, zhyfly68@126.com;
    Tao Xie, Xietaohlj@163.com;
    Hui-Ling Tai, taitai1980@uestc.edu.cn;
    Ya-Dong Jiang, jiangyd@uestc.edu.cn

    Guang-Zhong Xie research interests are sensitive materials and sensors, gzxie@uestc.edu.cn;
    Ting Kang, xiaobu0401@126.com;
    Yong Zhou, zhyfly68@126.com;
    Tao Xie, Xietaohlj@163.com;
    Hui-Ling Tai, taitai1980@uestc.edu.cn;
    Ya-Dong Jiang, jiangyd@uestc.edu.cn

    Guang-Zhong Xie research interests are sensitive materials and sensors, gzxie@uestc.edu.cn;
    Ting Kang, xiaobu0401@126.com;
    Yong Zhou, zhyfly68@126.com;
    Tao Xie, Xietaohlj@163.com;
    Hui-Ling Tai, taitai1980@uestc.edu.cn;
    Ya-Dong Jiang, jiangyd@uestc.edu.cn

    Guang-Zhong Xie research interests are sensitive materials and sensors, gzxie@uestc.edu.cn;
    Ting Kang, xiaobu0401@126.com;
    Yong Zhou, zhyfly68@126.com;
    Tao Xie, Xietaohlj@163.com;
    Hui-Ling Tai, taitai1980@uestc.edu.cn;
    Ya-Dong Jiang, jiangyd@uestc.edu.cn

    Guang-Zhong Xie research interests are sensitive materials and sensors, gzxie@uestc.edu.cn;
    Ting Kang, xiaobu0401@126.com;
    Yong Zhou, zhyfly68@126.com;
    Tao Xie, Xietaohlj@163.com;
    Hui-Ling Tai, taitai1980@uestc.edu.cn;
    Ya-Dong Jiang, jiangyd@uestc.edu.cn

    Guang-Zhong Xie research interests are sensitive materials and sensors, gzxie@uestc.edu.cn;
    Ting Kang, xiaobu0401@126.com;
    Yong Zhou, zhyfly68@126.com;
    Tao Xie, Xietaohlj@163.com;
    Hui-Ling Tai, taitai1980@uestc.edu.cn;
    Ya-Dong Jiang, jiangyd@uestc.edu.cn

  • Authors’ information: Guang-Zhong Xie
  • Received Date: 2014-08-31
  • Rev Recd Date: 2014-11-03
  • Publish Date: 2015-06-24
    Abstract
  • In this paper, quartz crystal microbalance (QCM) gas sensors coated with polyehtyleneimine (PEI) was utilized for carbon dioxide (CO2) detection. The sensing mechanism is based on the availability of reversible acid-base reactions between CO2 molecules and PEI at room temperature. The experimental results revealed that the PEI/starch sensor exhibited much higher sensitivity than that of pure PEI, and showed approximate linearity over a concentration region ranging from 500 ppm to 8000 ppm. The influence of humidity had also been investigated. Furthermore, the response and recovery time deceased as the operation temperatures increased. Finally, sensitivity loss after conservation for several days and reversibility of the sensors had been discussed.
    • FullText(HTML)
    • References(0)
    • Relative Articles

  • Related Articles

    [1]Marwan Marwan, Syafaruddin. Minimizing Energy Cost of Air Conditioner in a Residential House under Demand Side Response Model[J]. Journal of Electronic Science and Technology, 2017, 15(4): 377-384. DOI: 10.11989/JEST.1674-862X.70804017
    [2]Xin-Yong Dong, Hwa-Yaw Tam. A Novel Temperature-Compensated, IntensityModulated Fiber Bragg Grating Sensor System[J]. Journal of Electronic Science and Technology, 2008, 6(4): 434-437.
    [3]John Canning, Somnath Bandyopadhyay, Michael Stevenson, Kevin Cook. Ultra-High Temperature Gratings[J]. Journal of Electronic Science and Technology, 2008, 6(4): 420-422.
    [4]Yang Chen, Yong Liu, Xiao-Li Zhou, Li-Xun Zhang, Zhi-Yong Dai, Yong-Zhi Liu. A Nonlinear Mirror Structure to Improve the Performance of the Distributed Fiber Temperature Sensor Based on Raman Backscattering[J]. Journal of Electronic Science and Technology, 2008, 6(4): 405-407.
    [5]Gui-Yan Li, Hong-Lin Liu, Zai-Xuan Zhang. Network Integration of Distributed Optical Fiber Temperature Sensor[J]. Journal of Electronic Science and Technology, 2008, 6(4): 399-401.
    [6]Ping Xu, Fu-Fei Pang, Na Chen, Zhen-Yi Chen, Ting-Yun Wang. Fabry-Perot Temperature Sensor for Quasi-Distributed Measurement Utilizing OTDR[J]. Journal of Electronic Science and Technology, 2008, 6(4): 393-395.
    [7]Ji-Sheng Zhang, Yong-Qian Li, Shuo Zhang, Li-Juan Zhao. Performance Analysis of Temperature and Strain Simultaneous Measurement System Based on Heterodyne Detection of Brillouin Scattering[J]. Journal of Electronic Science and Technology, 2008, 6(4): 381-384.
    [8]Jian Chen, Zheng-Ping Gao, Jin-Ming Wang, Da-Hai Zhang. Dielectric Properties of Yttria Ceramics at High Temperature[J]. Journal of Electronic Science and Technology, 2007, 5(4): 320-324.
    [9]Ting Zhang, Shu-Ren Zhang, Meng-Qiang Wu, Wei-Jun Sang, Zheng-Ping Gao, Zhong-Ping Li. Studies on Dielectric Properties of Silicon Nitride at High Temperature[J]. Journal of Electronic Science and Technology, 2007, 5(4): 316-319.
    [10]Long Peng, Huai-Wu Zhang, Qi-Ye Wen, John Q. Xiao. Room Temperature Ferromagnetismin Co-doped ZnO Bulks[J]. Journal of Electronic Science and Technology, 2007, 5(4): 293-295.
    • Supplements (0)

  • Cited by

    Periodical cited type(6)

    1. Na Songkhla, S.. Quartz crystal microbalance sensors. Digital Technologies in Olfaction: Fundamentals to Applications, 2025. DOI:10.1016/B978-0-443-15721-9.00004-X
    2. Siefker, Z.A., Hodul, J.N., Flores-Hansen, C. et al. Sorption Kinetics of Poly(ethyleneimine)-Poly(ethylene Oxide) Blends and the Implication for Low-Cost, Small-Scale CO2Sensors. ACS Applied Polymer Materials, 2022, 4(6): 4389-4397. DOI:10.1021/acsapm.2c00361
    3. Siefker, Z.A., Hodul, J.N., Zhao, X. et al. Manipulating polymer composition to create low-cost, high-fidelity sensors for indoor CO2 monitoring. Scientific Reports, 2021, 11(1): 13237. DOI:10.1038/s41598-021-92181-4
    4. Ersöz, B., Schmitt, K., Wöllenstein, J. Electrolyte-gated transistor for CO2 gas detection at room temperature. Sensors and Actuators, B: Chemical, 2020. DOI:10.1016/j.snb.2020.128201
    5. Su, Y., Xie, G., Wang, S. et al. Novel high-performance self-powered humidity detection enabled by triboelectric effect. Sensors and Actuators, B: Chemical, 2017. DOI:10.1016/j.snb.2017.04.039
    6. Ma, X.F., Xie, G.Z., Su, Y.J. et al. Polyvinylpyrrolidone/graphene oxide thin films coated on quartz crystal microbalance electrode for NH3 detection at room temperature. Science China Technological Sciences, 2016, 59(9): 1377-1382. DOI:10.1007/s11431-016-0281-7

    Other cited types(0)

    • Catalog

      Get Citation
      PDF
      XML

      Article Metrics

      Article views (402) PDF downloads (64) Cited by(6)
      Related
      Proportional views

      Copyright 2008-2016 JEST All Rights Reserved

      Supported by: Beijing Renhe Information Technology Co. Ltd

      /

      DownLoad:  Full-Size Img  PowerPoint
      Return
      Return