Impact of UV radiation on sensing properties of conductive polymer and ZnO blend for NO2 gas sensing at room temperature

Authors

  • Piotr Dariusz Kałużyński Department of Optoelectronics, Silesian University of Technology, Krzywoustego 2 Str, Gliwice, Poland
  • Marcin Procek Department of Optoelectronics, Silesian University of Technology, Krzywoustego 2 Str, Gliwice, Poland
  • Agnieszka Stolarczyk Department of Physical Chemistry and Technology of Polymers, Silesian University of Technology, 9 Strzody St., 44-100 Gliwice, Poland

DOI:

https://doi.org/10.4302/plp.v11i3.911

Abstract

In this paper we present an investigation on UV radiation on organic-inorganic blend made from conductive polymer (regio-regular poly(3-hexyltiophene) (rr-P3HT) and zinc oxide (ZnO) nanomaterial, which was used as a sensing layer for chemoresistor structure. The study showed that UV radiation has a significant impact on the dynamics of the response of the sensor being studied, which can be a significant element to improve the operation of such sensors at room temperature.

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References
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Author Biographies

Piotr Dariusz Kałużyński, Department of Optoelectronics, Silesian University of Technology, Krzywoustego 2 Str, Gliwice, Poland

PhD Student at Department of Optoelectronics, Silesian University of Technology

Marcin Procek, Department of Optoelectronics, Silesian University of Technology, Krzywoustego 2 Str, Gliwice, Poland

Assistant Professor at Department of Optoelectronics, Silesian University of Technology

Agnieszka Stolarczyk, Department of Physical Chemistry and Technology of Polymers, Silesian University of Technology, 9 Strzody St., 44-100 Gliwice, Poland

Assistant Professor at Department of Physical Chemistry and Technology of Polymers, Silesian University of Technology

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Published

2019-09-30

How to Cite

[1]
P. D. Kałużyński, M. Procek, and A. Stolarczyk, “Impact of UV radiation on sensing properties of conductive polymer and ZnO blend for NO2 gas sensing at room temperature”, Photonics Lett. Pol., vol. 11, no. 3, pp. 69–71, Sep. 2019.

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