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Investigation of Highly Sensitive and Linearly Responsive SAW Based Gas Sensor for Better N2 Detection

  • Published:2024 Issue: Volume: Page:205-215
  • ISSN:1867-8211
  • Container-title:Lecture Notes of the Institute for Computer Sciences, Social Informatics and Telecommunications Engineering
  • language:en
  • Short-container-title:

Author:

Harathi Nimmala,Pasuluri Binduswetha,Sarkar Argha,Maurya Naveen Kumar

Publisher

Springer Nature Switzerland

Reference12 articles.

1. Anand, M.: Study of tin oxide for hydrogen gas sensor applications. Thesis, University of South Florida, Graduate School, pp. 1–98 (2005)

2. Awang, Z.: Gas sensors: a review. Sens. Transducers 168(4), 61–75 (2014)

3. Arabshahi, S., et al.: Simulation of surface acoustic wave NO2 gas sensor based on Zno/XY Linbo3 structure. IJERA 2, 2120–2123 (2012)

4. Valluru, S.P.R.: Design of FIDT for 3D analysis of MEMS based gas sensor using SAW technology. In: Proceedings of the Comsol Conference, pp1–4. COMSOL, Pune (2015)

5. Sarkar, A., et al.: Design and optimization of ZnO nanostructured SAW-based ethylene gas sensor with modified electrode orientation. Adv. Sci. Technol. Eng. Syst 5, 263–266 (2020)
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