Surface hydrogenation of oxygen terminated MXenes M2CO2 (M = Ti, V, Nb)

•The potential of hydrogen pair interactions on the MXenes M2CO2 surface (M = Ti, V, Nb) is always repulsive.•Nearest-neighbour repulsions negatively correlate with the lattice parameter.•Repulsions between second-nearest neighbours is weaker than between third-nearest.•Due to lateral interactions h...

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Published in:Surface science 2022-03, Vol.717, p.121984, Article 121984
Main Authors: Kayumova, Tatyana R., Kolganov, Ilay P., Myshlyavtsev, Alexander V., Stishenko, Pavel V., Fadeeva, Anastasiia I.
Format: Article
Language:English
Subjects:
Adsorptivity
Approximation
Density functional theory
DFT
Functional groups
Hydrogenation
Isotherms
Low temperature
Monte Carlo simulation
MXenes
Niobium
Statistical methods
Surface chemistry
Titanium
Vanadium
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cited_by cdi_FETCH-LOGICAL-c372t-323223255ad10852e32ae17ae69a95790ab64f9dfe1d2154e00608fbbdf6c6b43
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container_issue
container_start_page 121984
container_title Surface science
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creator Kayumova, Tatyana R.
Kolganov, Ilay P.
Myshlyavtsev, Alexander V.
Stishenko, Pavel V.
Fadeeva, Anastasiia I.
description •The potential of hydrogen pair interactions on the MXenes M2CO2 surface (M = Ti, V, Nb) is always repulsive.•Nearest-neighbour repulsions negatively correlate with the lattice parameter.•Repulsions between second-nearest neighbours is weaker than between third-nearest.•Due to lateral interactions hydrogen adlayer on considered MXenes features ordered phases with 1/3 and 2/3 ML coverage and varying thermal stability.•In atmospheric air at normal conditions it is expected that Nb2CO2 has near-zero hydrogen coverage, while on V2CO2 and Ti2CO2 hydrogen adlayer should form ordered phase with 1/3 ML coverage. We have investigated reduction of MXenes M2CO2 (M = Ti, V, Nb) surface by hydrogen using density functional theory and statistical physics methods. We have approximated lateral interactions between adsorbed hydrogen with simple pairwise potential. We have confirmed model stability via cross-validation. Adsorption isotherms are calculated using Metropolis Monte Carlo method. We have built analytical Langmuir-like approximation of calculated isotherms. Ordered phases with 1/3 and 2/3 ML coverage are visually observed at low temperatures. At temperatures above 300 K no obvious plateau is observed, and intermediate phases does not exist. We compared adsorptive properties of MXenes at the same external conditions. [Display omitted]
doi_str_mv 10.1016/j.susc.2021.121984
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We have investigated reduction of MXenes M2CO2 (M = Ti, V, Nb) surface by hydrogen using density functional theory and statistical physics methods. We have approximated lateral interactions between adsorbed hydrogen with simple pairwise potential. We have confirmed model stability via cross-validation. Adsorption isotherms are calculated using Metropolis Monte Carlo method. We have built analytical Langmuir-like approximation of calculated isotherms. Ordered phases with 1/3 and 2/3 ML coverage are visually observed at low temperatures. At temperatures above 300 K no obvious plateau is observed, and intermediate phases does not exist. We compared adsorptive properties of MXenes at the same external conditions. 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We have investigated reduction of MXenes M2CO2 (M = Ti, V, Nb) surface by hydrogen using density functional theory and statistical physics methods. We have approximated lateral interactions between adsorbed hydrogen with simple pairwise potential. We have confirmed model stability via cross-validation. Adsorption isotherms are calculated using Metropolis Monte Carlo method. We have built analytical Langmuir-like approximation of calculated isotherms. Ordered phases with 1/3 and 2/3 ML coverage are visually observed at low temperatures. At temperatures above 300 K no obvious plateau is observed, and intermediate phases does not exist. We compared adsorptive properties of MXenes at the same external conditions. 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subjects Adsorptivity
Approximation
Density functional theory
DFT
Functional groups
Hydrogenation
Isotherms
Low temperature
Monte Carlo simulation
MXenes
Niobium
Statistical methods
Surface chemistry
Titanium
Vanadium
title Surface hydrogenation of oxygen terminated MXenes M2CO2 (M = Ti, V, Nb)
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