A Comparative Analysis of the Size Dependence of the Melting and Crystallization Temperatures in Silver Nanoparticles via the Molecular Dynamics and Monte-Carlo Methods


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Abstract

The size dependences of the melting and crystallization temperatures of silver nanoparticles are obtained by two alternative atomistic simulation methods, such as the molecular dynamics and Monte-Carlo methods. The simulation results are analyzed and compared with available experimental values and a melting temperature calculated using the well-known Thomson formula. Atomistic simulation reveals good coincidence between the data and satisfactorily conforms to the Thomson formula. However, the melting temperatures predicted through atomistic simulations exceeds the available experimental data.

About the authors

V. M. Samsonov

Tver State University

Email: nsdobnyakov@mail.ru
Russian Federation, Tver, 170002

N. Yu. Sdobnyakov

Tver State University

Author for correspondence.
Email: nsdobnyakov@mail.ru
Russian Federation, Tver, 170002

V. S. Myasnichenko

Tver State University

Email: nsdobnyakov@mail.ru
Russian Federation, Tver, 170002

I. V. Talyzin

Tver State University

Email: nsdobnyakov@mail.ru
Russian Federation, Tver, 170002

V. V. Kulagin

Tver State University

Email: nsdobnyakov@mail.ru
Russian Federation, Tver, 170002

S. A. Vasilyev

Tver State University

Email: nsdobnyakov@mail.ru
Russian Federation, Tver, 170002

A. G. Bembel

Tver State University

Email: nsdobnyakov@mail.ru
Russian Federation, Tver, 170002

A. Yu. Kartoshkin

Tver State University

Email: nsdobnyakov@mail.ru
Russian Federation, Tver, 170002

D. N. Sokolov

Tver State University

Email: nsdobnyakov@mail.ru
Russian Federation, Tver, 170002

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