Low-energy channel for mass transfer in Pt crystal initiated by molecule impact
Crystal surface bombardment by atoms or molecules, neutral or ionized, occurs both in ambient conditions and in many technological operations, such as surface plasma treatment, ion implantation, etc. Recently, it was established that the impact of a molecule initiates the mass transfer in the one-di...
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sg-ntu-dr.10356-1513662021-07-09T02:12:14Z Low-energy channel for mass transfer in Pt crystal initiated by molecule impact Babicheva, Rita I. Evazzade, Iman Korznikova, Elena A. Shepelev, Igor A. Zhou, Kun Dmitriev, Sergey V. School of Mechanical and Aerospace Engineering Environmental Process Modelling Centre Nanyang Environment and Water Research Institute Engineering::Mechanical engineering Crystal Lattice Mass Transfer Crystal surface bombardment by atoms or molecules, neutral or ionized, occurs both in ambient conditions and in many technological operations, such as surface plasma treatment, ion implantation, etc. Recently, it was established that the impact of a molecule initiates the mass transfer in the one-dimensional Frenkel-Kontorova atomic chain more efficiently than that of a single atom. This is explained by the fact that the atom can initiate only a very sharp, fast-moving crowdion (anti-kink), which requires relatively high energy, while the molecule is able to initiate a less localized crowdion with considerably lower velocity and energy. In the current study, by means of molecular dynamics simulation, for the first time, this phenomenon is studied for a realistic 3D model of platinum crystal. We compare the efficiency of single Pt atom impact and Pt2 molecule impact on the (1 0 1) surface of fcc Pt crystal for the initiation of mass transfer in the material by crowdions. It is revealed that in order to generate a crowdion moving inside the crystal, the properly oriented molecule needs an order of magnitude smaller energy than single atom. This considerable reduction of required energy happens when the molecule is oriented perpendicularly to the crystal surface and hits the crystal along a close-packed atomic row. Furthermore, it is revealed for the first time that the molecule with sufficiently large velocity can initiate the so-called supersonic 2-crowdion, which travels longer distances in the crystal than the classical supersonic crowdion having same or even higher energy. Our results can be useful for understanding and prediction the mass transfer during technological applications where bombardment by atomic clusters is employed to modify and improve mechanical or functional properties of surfaces. The work of E.A.K. and I.A.Sh. was supported by the Russian Foundation for Basic Research, Grant No. 18-32-20158 mol_a_ved (performing calculations and discussion of the results). R.I.B. appreciates the financial support provided by the Russian Science Foundation, Grant No. 17-79-10410 (performing calculations, writing the manuscript). S.V.D. acknowledges the financial support provided by the Russian Foundation for Basic Research, Grant No. 17-02-00984 a (discussion, writing the manuscript). The work was partly supported by state assignment of IMSP RAS. 2021-07-09T02:12:14Z 2021-07-09T02:12:14Z 2019 Journal Article Babicheva, R. I., Evazzade, I., Korznikova, E. A., Shepelev, I. A., Zhou, K. & Dmitriev, S. V. (2019). Low-energy channel for mass transfer in Pt crystal initiated by molecule impact. Computational Materials Science, 163, 248-255. https://dx.doi.org/10.1016/j.commatsci.2019.03.022 0927-0256 0000-0002-9070-8656 https://hdl.handle.net/10356/151366 10.1016/j.commatsci.2019.03.022 2-s2.0-85063356435 163 248 255 en Computational Materials Science © 2019 Elsevier B.V. All rights reserved. |
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Engineering::Mechanical engineering Crystal Lattice Mass Transfer Babicheva, Rita I. Evazzade, Iman Korznikova, Elena A. Shepelev, Igor A. Zhou, Kun Dmitriev, Sergey V. Low-energy channel for mass transfer in Pt crystal initiated by molecule impact |
| description |
Crystal surface bombardment by atoms or molecules, neutral or ionized, occurs both in ambient conditions and in many technological operations, such as surface plasma treatment, ion implantation, etc. Recently, it was established that the impact of a molecule initiates the mass transfer in the one-dimensional Frenkel-Kontorova atomic chain more efficiently than that of a single atom. This is explained by the fact that the atom can initiate only a very sharp, fast-moving crowdion (anti-kink), which requires relatively high energy, while the molecule is able to initiate a less localized crowdion with considerably lower velocity and energy. In the current study, by means of molecular dynamics simulation, for the first time, this phenomenon is studied for a realistic 3D model of platinum crystal. We compare the efficiency of single Pt atom impact and Pt2 molecule impact on the (1 0 1) surface of fcc Pt crystal for the initiation of mass transfer in the material by crowdions. It is revealed that in order to generate a crowdion moving inside the crystal, the properly oriented molecule needs an order of magnitude smaller energy than single atom. This considerable reduction of required energy happens when the molecule is oriented perpendicularly to the crystal surface and hits the crystal along a close-packed atomic row. Furthermore, it is revealed for the first time that the molecule with sufficiently large velocity can initiate the so-called supersonic 2-crowdion, which travels longer distances in the crystal than the classical supersonic crowdion having same or even higher energy. Our results can be useful for understanding and prediction the mass transfer during technological applications where bombardment by atomic clusters is employed to modify and improve mechanical or functional properties of surfaces. |
| author2 |
School of Mechanical and Aerospace Engineering |
| author_facet |
School of Mechanical and Aerospace Engineering Babicheva, Rita I. Evazzade, Iman Korznikova, Elena A. Shepelev, Igor A. Zhou, Kun Dmitriev, Sergey V. |
| format |
Article |
| author |
Babicheva, Rita I. Evazzade, Iman Korznikova, Elena A. Shepelev, Igor A. Zhou, Kun Dmitriev, Sergey V. |
| author_sort |
Babicheva, Rita I. |
| title |
Low-energy channel for mass transfer in Pt crystal initiated by molecule impact |
| title_short |
Low-energy channel for mass transfer in Pt crystal initiated by molecule impact |
| title_full |
Low-energy channel for mass transfer in Pt crystal initiated by molecule impact |
| title_fullStr |
Low-energy channel for mass transfer in Pt crystal initiated by molecule impact |
| title_full_unstemmed |
Low-energy channel for mass transfer in Pt crystal initiated by molecule impact |
| title_sort |
low-energy channel for mass transfer in pt crystal initiated by molecule impact |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/151366 |
| _version_ |
1705151339128946688 |