期刊
POLYMERS
卷 13, 期 11, 页码 -出版社
MDPI
DOI: 10.3390/polym13111783
关键词
atmospheric pressure plasma; room temperature growth; plasma polymerization; porous polythiophene; conducting polymer; NO2; gas sensors
资金
- National Research Foundation of Korea (NRF) - Korea government (MOE) [2018R1D1A1B07046640]
- National Research Foundation of Korea [NRF-2017M3A9F1033056]
A novel method for directly depositing nanostructured conducting porous polythiophene films on substrates at room temperature is proposed, showing fast deposition rate and high sensitivity. Comparison between pure and iodine-doped PTh films was conducted to demonstrate the effects of iodine doping, and the NO2-sensing properties of the iodine-doped PTh films-based gas sensors were investigated. The proposed approach allows simultaneous synthesis of sensing materials and fabrication of gas sensors.
New nanostructured conducting porous polythiophene (PTh) films are directly deposited on substrates at room temperature (RT) by novel atmospheric pressure plasma jets (APPJs) polymerization technique. The proposed plasma polymerization synthesis technique can grow the PTh films with a very fast deposition rate of about 7.0 mu m center dot min(-1) by improving the sufficient nucleation and fragment of the thiophene monomer. This study also compares pure and iodine (I-2)-doped PTh films to demonstrate the effects of I-2 doping. To check the feasibility as a sensing material, NO2-sensing properties of the I-2-doped PTh films-based gas sensors are also investigated. As a result, the proposed APPJs device can produce the high density, porous and ultra-fast polymer films, and polymers-based gas sensors have high sensitivity to NO2 at RT. Our approach enabled a series of processes from synthesis of sensing materials to fabrication of gas sensors to be carried out simultaneously.
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