[1] M HE, L XIE, G LUO et al. Flexible fabric gas sensors based on PANI/WO3 p-n heterojunction for high performance NH3 detection at room temperature. Science China Materials, 2028-2039(2020).
[2] G LUO, L XIE, M HE et al. Flexible fabric gas sensors based on reduced graphene-polyaniline nanocomposite for highly sensitive NH3 detection at room temperature. Nanotechnology, 305501(2021).
[3] M S YARANDI, M MAHDINIA, J BARAZANDEH et al. Evaluation of the toxic effects of ammonia dispersion: consequence analysis of ammonia leakage in an industrial slaughterhouse. Medical Gas Research, 24(2021).
[4] D LI, X XU, Z LI et al. Detection methods of ammonia nitrogen in water: a review. TrAC Trends in Analytical Chemistry, 115890(2020).
[5] D KWAK, Y LEI, R MARIC. Ammonia gas sensors: a comprehensive review. Talanta, 204, 713-730(2019).
[6] V B RAJ, H SINGH, A T NIMAL et al. Distinct detection of liquor ammonia by ZnO/SAW sensor: study of complete sensing mechanism. Sensors and Actuators B: Chemical, 238, 83-90(2017).
[7] X SONG, R HU, S XU et al. Highly sensitive ammonia gas detection at room temperature by integratable silicon nanowire field-effect sensors. ACS Applied Materials & Interfaces, 14377-14384(2021).
[8] Q PAN, T LI, D ZHANG. Ammonia gas sensing properties and density functional theory investigation of coral-like Au-SnSe2 Schottky junction. Sensors and Actuators B: Chemical, 129440(2021).
[9] Z LI, J WANG, S ZHANG et al. Highly sensitive NH3 gas sensor based on the porous Ce0.94Zr0.06O2 nano-sheets with ppb level detection limit. Journal of Alloys and Compounds, 742, 712-720(2018).
[10] H WEI, Y GUI, J KANG et al. A DFT study on the adsorption of H2S and SO2 on Ni doped MoS2 monolayer. Nanomaterials, 646(2018).
[11] R KUMAR, N GOEL, M KUMAR. UV-activated MoS2 based fast and reversible NO2 sensor at room temperature. ACS sensors, 1744-1752(2017).
[12] S SINGH, S SHARMA. Ammonia sensor using MoS2 nanostructures synthesized via bottom-up approach. AIP Publishing LLC, 030690(2020).
[13] S SHARMA, A KUMAR, D KAUR. Room temperature ammonia gas sensing properties of MoS2 nanostructured thin film. AIP Publishing LLC, 030261(2018).
[14] TUAN D VAN, D T T NGAN, N T THUY et al. Effect of nanostructured MoS2 morphology on the glucose sensing of electrochemical biosensors. Current Applied Physics, 1090-1096(2020).
[15] L ZHOU, R QIAN, S ZHUO et al. Oximation reaction induced reduced graphene oxide gas sensor for formaldehyde detection. Journal of Saudi Chemical Society, 364-373(2020).
[16] M LI, D WANG, J LI et al. Surfactant-assisted hydrothermally synthesized MoS2 samples with controllable morphologies and structures for anthracene hydrogenation. Chinese Journal of Catalysis, 597-606(2017).
[17] X HENG, Y ZHU, Y SUN et al. Hydrothermal synthesis of MoS2 with different morphology and its performance in thermal battery. Journal of Power Sources, 395, 318-327(2018).
[18] E YALON, O B ASLAN, K K H SMITHE et al. Temperature- dependent thermal boundary conductance of monolayer MoS2 by Raman thermometry. ACS Applied Materials & Interfaces, 43013-43020(2017).
[19] J LI, Y LU, Q YE et al. Carbon nanotube sensors for gas and organic vapor detection. Nano Letters, 929-933(2003).
[20] W WANG, Y ZHEN, J ZHANG et al. SnO2 nanoparticles modified 3D-multilayer MoS2nanosheets for ammonia gas sensing at room temperature. Sensors and Actuators B: Chemical, 128471(2020).
[21] Z LI, Z LIN, N WANG et al. High precision NH3 sensing using network nano-sheet Co3O4 arrays based sensor at room temperature. Sensors and Actuators B: Chemical, 235, 222-231(2016).
[22] G MARIMUTHU, G PALANISAMY, T PAZHANIVEL et al. Nanorod like NiCo2O4 nanostructure for high sensitive and selective ammonia gas sensor. Journal of Materials Science: Materials in Electronics, 1951-1959(2020).
[23] S SINGH, J DEB, U SARKAR et al. MoS2/WO3 nanosheets for detection of ammonia. ACS Applied Nano Materials, 2594-2605(2021).
