C
Christopher Eames
Researcher at University of Bath
Publications - 25
Citations - 4976
Christopher Eames is an academic researcher from University of Bath. The author has contributed to research in topics: Lithium & Perovskite (structure). The author has an hindex of 18, co-authored 25 publications receiving 3815 citations. Previous affiliations of Christopher Eames include Centre national de la recherche scientifique.
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The structure and growth direction of rare earth silicide nanowires on Si(100)
TL;DR: In this article, the growth direction and the structure of rare earth silicide nanowires grown on the Si(100) surface have been calculated from first principles, and the energies of the optimum structures show that a structure related to the tetragonal bulk phase is more favorable than the hexagonal model.
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Lattice strain effects on doping, hydration and proton transport in scheelite-type electrolytes for solid oxide fuel cells.
TL;DR: The results suggest that tensile strain improves the dopant solubility and proton uptake of the material and the predicted reduction in the migration barrier suggests that improvements in ionic conductivity due to lattice strain effects will be limited.
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Metastable De-excitation Spectroscopy and Density Functional Theory Study of the Selective Oxidation of Crotyl Alcohol over Pd(111)
James Naughton,Andrew Pratt,Charles Woffinden,Christopher Eames,S. P. Tear,Sarah Thompson,Adam F. Lee,Karen Wilson +7 more
TL;DR: In this article, the metastable de-excitation spectroscopy (MDS) was used to probe the bonding and reactivity of crotyl alcohol over Pd(111) and provide insight into the selective oxidation pathway to crotonaldehyde.
Substitution Chemistry of Li2MSiO4: A Highly Flexible Framework
Anthony Robert Armstrong,Juliette Billaud,Paul Adamson,Christopher Eames,M. Saiful Islam,Peter G. Bruce +5 more
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The growth of an ordered Mn layer on the Si(111)- 1 × 1-Ho surface.
TL;DR: It is shown for 4 ML (monolayers) of Mn grown on a cooled Si(111)- 1 × 1-Ho surface that an ordered Mn layer is produced without any, or with only limited, silicide formation and this surface exhibits a low energy electron diffraction pattern.