Data for: Aging Mechanisms of Nanoceria and Pathways for Preserving Optimum Morphology

Name: Data for: Aging Mechanisms of Nanoceria and Pathways for Preserving Optimum Morphology
Creator: Marco Molinari
Published: 2024-03-13T08:41:47.193Z
Keywords: Molecular Modeling, Solid Oxide Fuel Cells, Surface Composition, Surface Diffusion, Nanomaterials, Energy Materials, Catalyst, Diffusion, Molecular Dynamics, Molecular Diffusion, Surface Chemistry, Aging of Material, Aging of Structure, Collective Motion, Cerium Oxide, Nanozymes

Molinari, Marco

doi:10.17632/jdnkf84zj4.3

Data for: Aging Mechanisms of Nanoceria and Pathways for Preserving Optimum Morphology

Published: 13 March 2024| Version 3 | DOI: 10.17632/jdnkf84zj4.3

Contributor:

Marco Molinari

Description

This repository hosts data supporting the findings in the open-access paper accepted in Nano Today: "Aging Mechanisms of Nanoceria and Pathways for Preserving Optimum Morphology" Authors: Dean C. Sayle, Francesco Caddeo, Lucy M. Morgan, Rachel L. Neale, Thi X.T. Sayle, Carlos Brambila, John Nutter, Umananda Bhatta, Minh Khoa Ta, Joseph M. Flitcroft, Tamil S. Sakthivel, Sudipta Seal, Günter Möbus, and Marco Molinari, Published in Nano Today 2023, 51, 101916, https://doi.org/10.1016/j.nantod.2023.101916

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University of Huddersfield

Data for: Aging Mechanisms of Nanoceria and Pathways for Preserving Optimum Morphology

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