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AuthorBerdiyorov G.R.
AuthorElbashier E.
AuthorCarchini G.
AuthorHussein I.A.
AuthorSakhaee-Pour A.
Available date2022-04-25T10:59:42Z
Publication Date2021
Publication NameJournal of Materials Research and Technology
ResourceScopus
Identifierhttp://dx.doi.org/10.1016/j.jmrt.2021.08.091
URIhttps://www.scopus.com/inward/record.uri?eid=2-s2.0-85114339628&doi=10.1016%2fj.jmrt.2021.08.091&partnerID=40&md5=83e42dfff34242fed2a11ef0604f24ae
URIhttp://hdl.handle.net/10576/30373
AbstractDensity functional theory calculations are used to study the effect of vacancy defects (ionic Ca and charge neutral CO3) on the adsorption properties of CH4 molecule on different calcite surfaces. Both types of vacancy defect results in strong adsorption of the gas molecules as compared to defect-free sample. For example, for the 104 surface of the material the methane molecules gets adsorbed stronger by 63.6% and 24.4% for Ca and CO3 vacancy defects, respectively. Such enhanced adsorption of the CH4 molecule due to the presence of the vacancy defects is also obtained for the other surface symmetries. Electronic structure calculations show that the latter is due to the orbital-overlap/hybridization between the organic molecules and the substrate. Adsorption capacity of the calcite also increases due to the presence of the defect. Vacancy defects also create energy barriers for the migration of CH4 on the surface of calcite as revealed in our nudged elastic band calculations. The effect on the CH4 adsorption and migration becomes more pronounced in the case of Ca vacancy defect. These findings could be of practical importance for, e.g., estimating ultimate gas recovery
SponsorAuthors acknowledge the usage of computer facilities of the Computational Materials and Processes Center of the Qatar Environment and Energy Research Institute (CMP-QEERI). The authors would like to acknowledge the support of Qatar National Research Fund (a member of Qatar Foundation) through Grant NPRP11S-1228- 170138. Open Access funding is provided by the Qatar National Library. The findings herein are the sole responsibility of the authors.
Languageen
PublisherElsevier Editora Ltda
SubjectCalcite
Calcium
Electronic structure
Gas adsorption
Gases
Methane
Molecules
Proven reserves
Substrates
Adsorption properties
Calcite surface
Carbonate reservoir
CH$-4$
Defect-free
Density functional theory
Density-functional theory calculations
Gas molecules
Gas reserve estimation
Vacancy Defects
Density functional theory
TitleThe effect of vacancy defects on the adsorption of methane on calcite 104 surface
TypeArticle
Pagination3051-3058
Volume Number14
dc.accessType Abstract Only


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