Issue 45, 2021

Tracking the emergence of epitaxial metal–oxide interfaces from precursor alloys

Abstract

Heterointerfaces with an epitaxial relationship, self-assembled nanocomposites of Pt(111)/CeO2(111) 60°, were successfully formed by simple oxidation of Pt5Ce alloy. Oxygen dissolution into the alloy causes spacial periodic compositional perturbation by atomic segregation, specifically, by local diffusion of Pt and Ce atoms. A striped pattern of Pt and CeO2 with a 4–5 nm periodicity formed through phase transformation of the Pt-rich alloy and oxidation of the Ce-rich alloy, respectively. Notably, a fully epitaxial relationship between the Pt and CeO2 phases was observed even in the initial stage. With continued annealing, the crystals rotated into an energetically favorable orientation with respect to the remaining (111)Pt//(111)CeO2. The alloy oxidation and its resulting nanoscale phase-separation behavior were verified in an ex situ annealing experiment of an alloy specimen, which had been first thinned by a focused ion beam. Changing the oxygen partial pressure to the reaction interface may alter the orientation relationship between the hexagonal close-packed Pt5Ce structure and face-centered cubic Pt/CeO2 structure, thereby altering the growth direction of the separated phases. These findings present a pathway for the self-assembly of epitaxial Pt(111)/CeO2(111) interface and are expected to assist the structural design of metal–oxide nanocomposites.

Graphical abstract: Tracking the emergence of epitaxial metal–oxide interfaces from precursor alloys

Supplementary files

Article information

Article type
Paper
Submitted
01 Qas 2021
Accepted
08 Way 2021
First published
08 Way 2021

Nanoscale, 2021,13, 18987-18995

Author version available

Tracking the emergence of epitaxial metal–oxide interfaces from precursor alloys

Y. Wen, H. Abe, K. Mitsuishi and A. Hashimoto, Nanoscale, 2021, 13, 18987 DOI: 10.1039/D1NR03492H

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