Engineering of nanoscale defect patterns in CeO2 nanorods via ex situ and in situ annealing

Tamil Selvan Sakthivel; David L. Reid; Umananda M. Bhatta; Günter Möbus; Dean C. Sayle; Sudipta Seal

doi:10.1039/C4NR07308H

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Engineering of nanoscale defect patterns in CeO₂ nanorods via ex situ and in situ annealing†

Tamil Selvan Sakthivel,^a David L. Reid,^a Umananda M. Bhatta,‡^b Günter Möbus,^b Dean C. Sayle^c and Sudipta Seal*^a

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* Corresponding authors

^a Advanced Materials Processing and Analysis Center (AMPAC), NanoScience Technology Center (NSTC), Materials Science Engineering (MSE), University of Central Florida, 4000, Central Florida Boulevard, Orlando, FL 32816, USA
E-mail: Sudipta.Seal@ucf.edu

^b Department of Materials Science and Engineering, University of Sheffield, Mappin Street, Sheffield S1 3JD, UK

^c School of Physical Science, University of Kent, Canterbury, Kent, CT2 7NZ, UK

Abstract

Single-crystalline ceria nanorods were fabricated using a hydrothermal process and annealed at 325 °C–800 °C. As-synthesized CeO₂ nanorods contain a high concentration of defects, such as oxygen vacancies and high lattice strains. Annealing resulted in an improved lattice crystalline quality along with the evolution of novel cavity-shaped defects in the nanorods with polyhedral morphologies and bound by e.g. {111} and {100} (internal) surfaces, confirmed for both air (ex situ) and vacuum (in situ) heating. We postulate that the cavities evolve via agglomeration of vacancies within the as-synthesized nanorods.

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Article information

DOI: https://doi.org/10.1039/C4NR07308H
Article type: Paper
Submitted: 11 Dec 2014
Accepted: 24 Jan 2015
First published: 26 Jan 2015

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Nanoscale, 2015,7, 5169-5177

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Engineering of nanoscale defect patterns in CeO₂ nanorods via ex situ and in situ annealing

T. S. Sakthivel, D. L. Reid, U. M. Bhatta, G. Möbus, D. C. Sayle and S. Seal, Nanoscale, 2015, 7, 5169 DOI: 10.1039/C4NR07308H

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