Toward agricultural ammonia volatilization monitoring: A flexible polyaniline/Ti3C2Tx hybrid sensitive films based gas sensor

•PANI/Ti3C2Tx hybrid films is firstly designed toward agricultural application.•High-performance NH3-sensing properties are achieved.•Synergistic effects and improved protonation degree in the hybrids are discussed. The monitoring of ammonia (NH3) produced in agricultural fields is of great importan...

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Bibliographic Details
Published in:Sensors and actuators. B, Chemical Chemical, 2020-08, Vol.316, p.1, Article 128144
Main Authors: Li, Xian, Xu, Jianlong, Jiang, Yadong, He, Zaizhou, Liu, Bohao, Xie, Haikuan, Li, Hu, Li, Zhemin, Wang, Yang, Tai, Huiling
Format: Article
Language:English
Subjects:
Agricultural monitoring
Ammonia
Environmental monitoring
Feasibility
Gas sensors
High sensitivity
Humidity tolerance
Modernization
NH3 gas sensor
PANI/Ti3C2Tx hybrid
Polyanilines
Protonation
Relative humidity
Selectivity
Self-assembly
Sensitive films
Sensors
Substrates
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Summary:•PANI/Ti3C2Tx hybrid films is firstly designed toward agricultural application.•High-performance NH3-sensing properties are achieved.•Synergistic effects and improved protonation degree in the hybrids are discussed. The monitoring of ammonia (NH3) produced in agricultural fields is of great importance due to its huge threat to ecological environment and human health, yet routine monitoring technologies rely on manual completion and complex agricultural environment brings great challenges to the application feasibility of gas sensors. Herein, a flexible chemiresistive gas sensor based on polyaniline (PANI)/Ti3C2Tx hybrid sensitive films is developed toward agricultural NH3 volatilization monitoring. The hybrid film was deposited on the flexible polyimide substrate by an in-situ self-assembly method. The sensor shows high sensitivity, low detection limit, excellent repeatability, high selectivity and good air stability, which could be attributed to the gas-sensing enhancement effects of PANI/Ti3C2Tx Schottky junction and improved protonation degree of PANI in the hybrids. Especially, the sensor exhibits excellent NH3-sensing properties to 20–80 % relative humidity (RH) environments at a temperature range of 10–40 ℃, making it promising for practical agricultural applications. Furthermore, the application feasibility of the sensor to ammonia volatilization monitoring is verified through agricultural simulation experiments. This work provides a fast and accurate gas sensor methodology toward unattended agricultural application, which is an important supplement to the existing technical methods and may greatly pushes forward the development of modernized intelligent agriculture.
ISSN:0925-4005
1873-3077
DOI:10.1016/j.snb.2020.128144