Analysis of the applicability of Ni, Cu, Au, Pt, and Pd nanoclusters for data recording


Cite item

Full Text

Open Access Open Access
Restricted Access Access granted
Restricted Access Subscription Access

Abstract

The applicability of individual Ni, Cu, Au, Pt, and Pd nanoclusters as data bits in next generation memory devices constructed on the phase-change carrier principle is studied. To this end, based on the modified tight-binding potential (TB-SMA), structure formation from the melt of nanoparticles of these metals to 10 nm in diameter was simulated by the molecular dynamics method. The effect of various crystallization conditions on the formation of the internal structures of Ni, Cu, Au, Pt, and Pd nanoclusters is studied. The stability boundaries of various crystalline isomers are analyzed. The obtained systematic features are compared for nanoparticles of copper, nickel, gold, platinum, and palladium of identical sizes. It is concluded that platinum nanoclusters of diameter D > 8 nm are the best materials among studied metals for producing memory elements based on phase transitions.

About the authors

L. V. Redel’

Katanov State University of Khakassia

Email: ygafner@khsu.ru
Russian Federation, pr. Lenina 90, Abakan, Khakassia Republic, 655017

S. L. Gafner

Katanov State University of Khakassia

Email: ygafner@khsu.ru
Russian Federation, pr. Lenina 90, Abakan, Khakassia Republic, 655017

Yu. Ya. Gafner

Katanov State University of Khakassia

Author for correspondence.
Email: ygafner@khsu.ru
Russian Federation, pr. Lenina 90, Abakan, Khakassia Republic, 655017

I. S. Zamulin

Katanov State University of Khakassia

Email: ygafner@khsu.ru
Russian Federation, pr. Lenina 90, Abakan, Khakassia Republic, 655017

Zh. V. Goloven’ko

Katanov State University of Khakassia

Email: ygafner@khsu.ru
Russian Federation, pr. Lenina 90, Abakan, Khakassia Republic, 655017

Supplementary files

Supplementary Files
Action
1. JATS XML
Download

Copyright (c) 2017 Pleiades Publishing, Ltd.