First principle investigation of H2Se, H2Te and PH3 sensing based on graphene oxide

Salih, Ehab; Ayesh, Ahmad I.

doi:10.1016/j.physleta.2020.126775

Cited by 29 publications

(9 citation statements)

References 58 publications

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“…In this work, the adsorption energy (E ads ) of the gas molecule on the surface of the ReSe 2 monolayer is calculated by eq 1 39,40 (1)…”

Section: ■ Computational Detailsmentioning

confidence: 99%

Adsorption Properties of Dissolved Gas Molecules in Transformer Oil on the ReSe₂ Monolayer: A DFT Study

Yang,

Hu,

Zhang

et al. 2024

Langmuir

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Based on density functional theory, the adsorption behavior of seven typical dissolved gas molecules (CO, CO 2 , H 2 , CH 4 , C 2 H 2 , C 2 H 4 , and C 2 H 6 ) and H 2 O molecule on the ReSe 2 monolayer was systematically investigated. The interactions between the ReSe 2 monolayer and eight gas molecules were investigated by calculating the adsorption energies, charge transfer, density of states (DOS), and deformation charge density (DCD) for eight different adsorption systems. The gas sensitivity of the ReSe 2 monolayer toward these gases was studied using frontier molecular orbital theory and work function analysis. The results demonstrate that compared to other gas molecules, the ReSe 2 monolayer exhibits a stronger interaction with CO with an adsorption energy of −1.49 eV. It also displays excellent sensitivity and selectivity toward CO making it a promising candidate for CO gas sensing applications. We aspire that this research will offer theoretical guidance for the development of ReSe 2 -based gas sensors and contribute to state monitoring technology in oil-immersed power equipment.

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“…In this work, the adsorption energy (E ads ) of the gas molecule on the surface of the ReSe 2 monolayer is calculated by eq 1 39,40 (1)…”

Section: ■ Computational Detailsmentioning

confidence: 99%

Adsorption Properties of Dissolved Gas Molecules in Transformer Oil on the ReSe₂ Monolayer: A DFT Study

Yang,

Hu,

Zhang

et al. 2024

Langmuir

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“…For the purpose of analyzing the electron transfer, kinetic stability, conductivity and sensing ability of the magnesiumdecorated graphene quantum dot, the frontier molecular orbital (FMO) has been computed. 48,49 The FMO serves as an approach for illustrating and understanding the electronic properties of a system. 50 The FMO is constituted by two important orbitals: the highest occupied molecular orbital (HOMO) and the lowest unoccupied molecular orbital (LUMO).…”

Section: Frontier Molecular Orbital (Fmo)mentioning

confidence: 99%

Modeling of magnesium-decorated graphene quantum dot nanostructure for trapping AsH₃, PH₃and NH₃gases

et al. 2023

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“…14 Kumar and Francisco subsequently pointed out that the nature of heteroatom in H 2 X (X = O, S, Se, and Te) plays a crucial role in determining the reactivity of bimolecular reactions of Criegee intermediates and H 2 X. 15 Although some H 2 Te reactions have been examined, [14][15][16] to the best of our knowledge, very little is known about the prototypical H 2 Te + OH -TeH + H 2 O reaction. It is worth noting that the bonds in H 2 Te are so weak that the molecule decomposes spontaneously to Te and H 2 in air already above 0 1C, and it will be challenging to measure accurately the rate constant with OH.…”

Section: Introductionmentioning

confidence: 99%

“…Although some H 2 Te reactions have been examined, 14–16 to the best of our knowledge, very little is known about the prototypical H 2 Te + OH → TeH + H 2 O reaction. It is worth noting that the bonds in H 2 Te are so weak that the molecule decomposes spontaneously to Te and H 2 in air already above 0 °C, and it will be challenging to measure accurately the rate constant with OH.…”

Section: Introductionmentioning

confidence: 99%

The highly exothermic hydrogen abstraction reaction H₂Te + OH → H₂O + TeH: comparison with analogous reactions for H₂Se and H₂S

Tang

Guo

et al. 2023

Phys. Chem. Chem. Phys.

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First principle investigation of H2Se, H2Te and PH3 sensing based on graphene oxide

Cited by 29 publications

References 58 publications

Adsorption Properties of Dissolved Gas Molecules in Transformer Oil on the ReSe₂ Monolayer: A DFT Study

Adsorption Properties of Dissolved Gas Molecules in Transformer Oil on the ReSe₂ Monolayer: A DFT Study

Modeling of magnesium-decorated graphene quantum dot nanostructure for trapping AsH₃, PH₃and NH₃gases

The highly exothermic hydrogen abstraction reaction H₂Te + OH → H₂O + TeH: comparison with analogous reactions for H₂Se and H₂S

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First principle investigation of H2Se, H2Te and PH3 sensing based on graphene oxide

Cited by 29 publications

References 58 publications

Adsorption Properties of Dissolved Gas Molecules in Transformer Oil on the ReSe2 Monolayer: A DFT Study

Adsorption Properties of Dissolved Gas Molecules in Transformer Oil on the ReSe2 Monolayer: A DFT Study

Modeling of magnesium-decorated graphene quantum dot nanostructure for trapping AsH3, PH3and NH3gases

The highly exothermic hydrogen abstraction reaction H2Te + OH → H2O + TeH: comparison with analogous reactions for H2Se and H2S

Contact Info

Product

Resources

About

Adsorption Properties of Dissolved Gas Molecules in Transformer Oil on the ReSe₂ Monolayer: A DFT Study

Adsorption Properties of Dissolved Gas Molecules in Transformer Oil on the ReSe₂ Monolayer: A DFT Study

Modeling of magnesium-decorated graphene quantum dot nanostructure for trapping AsH₃, PH₃and NH₃gases

The highly exothermic hydrogen abstraction reaction H₂Te + OH → H₂O + TeH: comparison with analogous reactions for H₂Se and H₂S