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Ni-Dispersed PdS 2 Monolayer as a Potential Sensing Material for Dissolved Gas Analysis in Electrical Transformers: A First-Principles Study.

Jiaying YuXiu ZhouHao CuiLei ChenYing WeiTian Tian
Published in: ACS omega (2024)
To perform the dissolved gas analysis in transformer oil, in this work, we propose the Ni-dispersed PdS 2 (Ni-PdS 2 ) monolayer as a promising sensing material for three typical dissolved gases H 2 , CO, and C 2 H 2 . For the Ni-dispersing process, we find that Ni atoms can be chemically stably adsorbed on the PdS 2 surface with a binding energy of -4.11 eV. For gas adsorption systems, it is found that the Ni-PdS 2 monolayer allows the physisorption of H 2 molecules and the chemisorption of CO and C 2 H 2 molecules. Besides, the analysis of electronic properties of the Ni-PdS 2 /gas system reveals its potential as a resistance-type H 2 or C 2 H 2 sensor with sensing responses of -40.9 and 261.5%, separately, and the WF analysis indicates its low potential as a WF-based gas sensor for the three gases. These findings indicate the Ni-dispersed behavior on the PdS 2 surface and the gas-sensing potential of the Ni-PdS 2 monolayer, which we expect can facilitate more investigations about PdS 2 -based materials for applications in gas adsorptions and sensing in some other fields.
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