Interphace energy of aluminum crystals at the boundary with nonpolar organic liquids
Understanding the energy characteristics at the metal-organic interface is of great importance for the development of equipment and technologies in various industries. In this regard, there is a great interest in studying the processes occurring at this interface. Particularly noteworthy is the rapi...
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Tver State University
2025
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ir-123456789-296092025-02-04T08:56:13Z Interphace energy of aluminum crystals at the boundary with nonpolar organic liquids Apekov, A. M. Апеков, А. М. Khamukova, L. A. Хамукова, Л. А. Interphase energy Aluminum Polarization correction Nonpolar organic liquid Dispersion correction Electronic statistical method Understanding the energy characteristics at the metal-organic interface is of great importance for the development of equipment and technologies in various industries. In this regard, there is a great interest in studying the processes occurring at this interface. Particularly noteworthy is the rapid growth of studies on the properties of metal-organic framework structures, which is associated with the possibility of synthesizing these structures with the desired properties by varying the lengths of the organic molecules connecting the atoms of metals or their oxides, as well as by selecting the chemical composition. In this paper, the values of the interfacial energy at the boundaries of the faces of an aluminum crystal with organic liquids are obtained within the framework of the electron-statistical method, taking into account the polarization of metal ions and molecules of the organic liquid, as well as the dispersion interaction of Wigner-Seitz cells on the interface. The dependence of the interfacial energy and corrections to the interfacial energy on the permittivity of the liquid and the orientation of the metal crystal is obtained. It is found that the dispersion correction makes a positive contribution while the polarization correction reduces the interfacial energy. 2025-02-04T08:55:21Z 2025-02-04T08:55:21Z 2024 Статья Apekov, A.M., Shebzukhova, I.G., Khamukova, L.A. Interphace energy of aluminum crystals at the boundary with nonpolar organic liquids // PHYSICAL AND CHEMICAL ASPECTS OF THE STUDY OF CLUSTERS NANOSTRUCTURES AND NANOMATERIALS. - 2024. - 16. - pp. 318-326. - DOI: 10.26456/pcascnn/2024.16.318 https://dspace.ncfu.ru/handle/123456789/29609 ru PHYSICAL AND CHEMICAL ASPECTS OF THE STUDY OF CLUSTERS NANOSTRUCTURES AND NANOMATERIALS application/pdf Tver State University |
| institution |
СКФУ |
| collection |
Репозиторий |
| language |
Russian |
| topic |
Interphase energy Aluminum Polarization correction Nonpolar organic liquid Dispersion correction Electronic statistical method |
| spellingShingle |
Interphase energy Aluminum Polarization correction Nonpolar organic liquid Dispersion correction Electronic statistical method Apekov, A. M. Апеков, А. М. Khamukova, L. A. Хамукова, Л. А. Interphace energy of aluminum crystals at the boundary with nonpolar organic liquids |
| description |
Understanding the energy characteristics at the metal-organic interface is of great importance for the development of equipment and technologies in various industries. In this regard, there is a great interest in studying the processes occurring at this interface. Particularly noteworthy is the rapid growth of studies on the properties of metal-organic framework structures, which is associated with the possibility of synthesizing these structures with the desired properties by varying the lengths of the organic molecules connecting the atoms of metals or their oxides, as well as by selecting the chemical composition. In this paper, the values of the interfacial energy at the boundaries of the faces of an aluminum crystal with organic liquids are obtained within the framework of the electron-statistical method, taking into account the polarization of metal ions and molecules of the organic liquid, as well as the dispersion interaction of Wigner-Seitz cells on the interface. The dependence of the interfacial energy and corrections to the interfacial energy on the permittivity of the liquid and the orientation of the metal crystal is obtained. It is found that the dispersion correction makes a positive contribution while the polarization correction reduces the interfacial energy. |
| format |
Статья |
| author |
Apekov, A. M. Апеков, А. М. Khamukova, L. A. Хамукова, Л. А. |
| author_facet |
Apekov, A. M. Апеков, А. М. Khamukova, L. A. Хамукова, Л. А. |
| author_sort |
Apekov, A. M. |
| title |
Interphace energy of aluminum crystals at the boundary with nonpolar organic liquids |
| title_short |
Interphace energy of aluminum crystals at the boundary with nonpolar organic liquids |
| title_full |
Interphace energy of aluminum crystals at the boundary with nonpolar organic liquids |
| title_fullStr |
Interphace energy of aluminum crystals at the boundary with nonpolar organic liquids |
| title_full_unstemmed |
Interphace energy of aluminum crystals at the boundary with nonpolar organic liquids |
| title_sort |
interphace energy of aluminum crystals at the boundary with nonpolar organic liquids |
| publisher |
Tver State University |
| publishDate |
2025 |
| url |
https://dspace.ncfu.ru/handle/123456789/29609 |
| work_keys_str_mv |
AT apekovam interphaceenergyofaluminumcrystalsattheboundarywithnonpolarorganicliquids AT apekovam interphaceenergyofaluminumcrystalsattheboundarywithnonpolarorganicliquids AT khamukovala interphaceenergyofaluminumcrystalsattheboundarywithnonpolarorganicliquids AT hamukovala interphaceenergyofaluminumcrystalsattheboundarywithnonpolarorganicliquids |
| _version_ |
1842245900817137664 |