Size Dependent Compressibility of Nano-Ceria

Philip P. Rodenbough, J. Song, D. Walker, Clark S.M., Kalkan B., Chan S. W.

Research output: Other contribution

Original languageEnglish (US)
PublisherMinimum near 33 nm. Appllied Physics
StatePublished - 2015
Externally publishedYes

Cite this

Rodenbough, P. P., Song, J., Walker, D., S.M., C., B., K., & S. W., C. (2015). Size Dependent Compressibility of Nano-Ceria. Minimum near 33 nm. Appllied Physics.

Size Dependent Compressibility of Nano-Ceria. / Rodenbough, Philip P.; Song, J.; Walker, D.; S.M., Clark; B., Kalkan; S. W., Chan.

Minimum near 33 nm. Appllied Physics. 2015, .

Research output: Other contribution

Rodenbough, PP, Song, J, Walker, D, S.M., C, B., K & S. W., C 2015, Size Dependent Compressibility of Nano-Ceria. Minimum near 33 nm. Appllied Physics.
Rodenbough PP, Song J, Walker D, S.M. C, B. K, S. W. C. Size Dependent Compressibility of Nano-Ceria. 2015.
Rodenbough, Philip P. ; Song, J. ; Walker, D. ; S.M., Clark ; B., Kalkan ; S. W., Chan. / Size Dependent Compressibility of Nano-Ceria. 2015. Minimum near 33 nm. Appllied Physics.
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title = "Size Dependent Compressibility of Nano-Ceria",
author = "Rodenbough, {Philip P.} and J. Song and D. Walker and Clark S.M. and Kalkan B. and {S. W.}, Chan",
year = "2015",
language = "English (US)",
publisher = "Minimum near 33 nm. Appllied Physics",
type = "Other",

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T1 - Size Dependent Compressibility of Nano-Ceria

AU - Rodenbough, Philip P.

AU - Song, J.

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AU - S.M., Clark

AU - B., Kalkan

AU - S. W., Chan

PY - 2015

Y1 - 2015

M3 - Other contribution

PB - Minimum near 33 nm. Appllied Physics

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