Amorphous MoS2 thin films have been prepared by thermal deposition on glass, quartz, and FTO substrates and investigated by UV-VIS – NIR spectroscopy. The type of substrate has a minor impact on the film's spectral absorption and band gap values. The investigation of MB – dye degradation by MoS2 catalyst under UV – irradiation demonstrates high efficiency of 86%. MoS2 films deposited on glass substrates have been experienced as CO2, HCl, and I2 gas sensors. The films revealed promises for CO2 sensing at high temperatures (T 300 ) in terms of relatively good response ( and moderate recovery of 12 min. Besides, MoS2 films revealed a quick response within 1 min for both HCl and I2 gases, while their entire recovery needs a time period longer than one hour.
Mohamed, H., Ali, H., Mohamed, H., & Shokr, E. (2023). Amorphous Molybdenum Disulfide Thin Film for Photocatalysis and Gas Sensing Applications. Sohag Journal of Sciences, 8(2), 235-241. doi: 10.21608/sjsci.2023.193578.1057
MLA
Heba M. Mohamed; H. M. Ali; H. A. Mohamed; E. Kh. Shokr. "Amorphous Molybdenum Disulfide Thin Film for Photocatalysis and Gas Sensing Applications". Sohag Journal of Sciences, 8, 2, 2023, 235-241. doi: 10.21608/sjsci.2023.193578.1057
HARVARD
Mohamed, H., Ali, H., Mohamed, H., Shokr, E. (2023). 'Amorphous Molybdenum Disulfide Thin Film for Photocatalysis and Gas Sensing Applications', Sohag Journal of Sciences, 8(2), pp. 235-241. doi: 10.21608/sjsci.2023.193578.1057
VANCOUVER
Mohamed, H., Ali, H., Mohamed, H., Shokr, E. Amorphous Molybdenum Disulfide Thin Film for Photocatalysis and Gas Sensing Applications. Sohag Journal of Sciences, 2023; 8(2): 235-241. doi: 10.21608/sjsci.2023.193578.1057
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