@article{aa19797212ba4fed986d766c6b245e73,
title = "Solid-state diffusion in amorphous zirconolite",
abstract = "We discuss how structural disorder and amorphization affect solid-state diffusion, and consider zirconolite as a currently important case study. By performing extensive molecular dynamics simulations, we disentangle the effects of amorphization and density, and show that a profound increase of solid-state diffusion takes place as a result of amorphization. Importantly, this can take place at the same density as in the crystal, representing an interesting general insight regarding solid-state diffusion. We find that decreasing the density in the amorphous system increases pre-factors of diffusion constants, but does not change the activation energy in the density range considered. We also find that atomic species in zirconolite are affected differently by amorphization and density change. Our microscopic insights are relevant for understanding how solid-state diffusion changes due to disorder and for building predictive models of operation of materials to be used to encapsulate nuclear waste.",
author = "C. Yang and E. Zarkadoula and Dove, {M. T.} and Todorov, {I. T.} and T. Geisler and Brazhkin, {V. V.} and K. Trachenko",
note = "Publisher Copyright: {\textcopyright} 2014 AIP Publishing LLC.",
year = "2014",
month = nov,
day = "14",
doi = "10.1063/1.4901326",
language = "English",
volume = "116",
journal = "Journal of Applied Physics",
issn = "0021-8979",
publisher = "American Institute of Physics",
number = "18",
}