HF, CS2, and COF2 are three important decomposition
components of the SF6 gas insulation medium. In this paper,
the gas sensitivity of Pt doped on (8, 0) single-walled carbon nanotube
(SWCNT) to HF, CS2, and COF2 is investigated
based on density functional theory. The binding energy, charge transfer,
density of states, and frontier molecular orbital theory are discussed.
It is found that all processes of HF, CS2, and COF2 adsorbed on Pt-SWCNT are exothermic. Pt-SWCNT donated 0.182
electrons to CS2 molecules during the interaction process
but acts as an electron acceptor during adsorption of HF and COF2 on it. After comprehensive consideration of binding energy
and charge transfer, the response of Pt- SWCNT to CS2 may
be the best, and those to HF and COF2 are almost the same.
In addition, after the adsorption of the three kinds of gases on Pt-SWCNT,
the order of the conductivity of the Pt-SWCNT material is CS2 > COF2 ≈ HF via frontier molecular orbital
theory
analysis. The Pt-SWCNT material is probably more suitable as a gas
sensor for the detection of CS2 in the application of gas-insulated
equipment.