A molecular dynamics study of an Au/Cu(001) interface

Jiménez-Sáez, J.C.; Domı́nguez-Vázquez, Javier; Pérez-Martı́n, A.M.C.; Jiménez-Rodrı́guez, J.J.

doi:10.1088/0957-4484/13/3/317

Cited by 10 publications

(11 citation statements)

References 24 publications

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“…In the case of systems with f 0 > 0.1, the last two conclusions were also drawn by Jimenez-Saez et al [75] from molecular dynamics simulation of the Au/Cu(001) system. According to their results, pseudomorphous growth is only possible for Cu clusters on (001) Au; in the case of Au growth on (001) Cu, a dislocation structure of the interface is formed very rapidly.…”

Section: Oriented Multilayer Nanostructuressupporting

confidence: 65%

Thin-film nanostructures: Substructural aspects

Иевлев

2004

Inorg Mater

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A classification of thin-film nanostructures grown by vacuum deposition processes is presented. Particular attention is given to the formation of multioriented epitaxial nanostructures. Multioriented epitaxial growth is shown to depend on the interfacial energy. The size effect in the growth of oriented nanostructures is discussed. The possibility of grain refining in fcc/bcc and hcp/bcc metallic multilayers is examined. The interrelated issues pertaining to the formation of multilayer heterostructures are systematized. S72

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Section: Oriented Multilayer Nanostructuressupporting

confidence: 65%

Thin-film nanostructures: Substructural aspects

Иевлев

2004

Inorg Mater

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“…12) The interfacing mechanism between Ni clusters and a Cu substrate was studied by the MD method, which solved complex structural matching problems. 13) However, there are still few studies regarding the nanoimprint process by numerical methods.…”

Section: Introductionmentioning

confidence: 99%

Deformation Mechanism and Punch Taper Effects on Nanoimprint Process by Molecular Dynamics

Hsu

Fang

2004

Jpn. J. Appl. Phys.

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A molecular dynamics analysis model is proposed to study the effects of parameters on the nanoimprint process, for example, taper angle, imprint depth and spring back. The nanoimprint process comprises one punch and one specimen at an isothermal state of 400 K, while the deformed material is a copper fcc single crystal and the punch material is a nickel fcc single crystal. There were a total of 10,080 atoms in copper measuring 12.02 nm and 5.72 nm in length and height, respectively. There were a total of 4,200 atoms in nickel with a typical length and depth in a punch tooth of 6.24 nm and 3.52 nm, respectively. Computer simulation codes based on Hamiltonian dynamics, periodical boundary conditions and the Morse potential function were used to simulate the nanoimprint process. By varying the punch taper angle and the imprint depth, useful information about the nanoimprint process was obtained.

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“…Our interest is focused on the processes involved in the matching of two crystalline structures with an initial misfit of 2.6% in their lattice parameters [29,30]. The main calculations have been performed for a Cu(001) substrate containing 27 613 atoms distributed in (23×23×12) unit cells.…”

Section: Calculation Methodsmentioning

confidence: 99%

“…Atoms from the Ni monolayer next to the Cu crystal must rise to the monolayer above and arrange adequately. At the same time, the double number of atoms from this monolayer must go up to the monolayer above and move into fcc sites and so on [30]. Once the transferring of atoms is over, the fcc structure is recovered (below we will see that this structure is fct, that is, tetragonal not cubic) and the Ni and Cu crystals finish the matching of the in-plane lattice parameters.…”

Section: Relaxation Processmentioning

confidence: 99%

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Molecular dynamics study of a Ni/Cu(001) interface

Jiménez-Sáez¹,

Domı́nguez-Vázquez

Pérez-Martı́n

et al. 2003

Nanotechnology

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The Ni/Cu(001) metallic interface shows interesting magnetic properties due to the lattice misfit. Its components exhibit a misfit of 2.6% in their lattice parameters. Hence, the growing thin film-substrate interface is strained. We are interested exclusively in the solid phase formation effects; therefore, the growth kinetics effects will be avoided. This work is focused on the analysis of atomic distances and deformations in this system and on the calculation of the interface energy. It is shown how the stabilization on an atomic scale of different Ni nanocrystals set down on top of a large enough Cu(001) crystal is achieved. The adjustment between the lattice parameters of the Ni clusters on the Cu substrate is analysed. Specially, changes in the atomic distances at the interface are quantified. The main result is that the anisotropy of the structural matching causes a cubic lattice to become a tetragonal one. In addition, we carry out the energetic analysis of this interface.

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A molecular dynamics study of an Au/Cu(001) interface

Cited by 10 publications

References 24 publications

Thin-film nanostructures: Substructural aspects

Thin-film nanostructures: Substructural aspects

Deformation Mechanism and Punch Taper Effects on Nanoimprint Process by Molecular Dynamics

Molecular dynamics study of a Ni/Cu(001) interface

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