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Nanoclusters of MoO3−x embedded in an Al2O3 matrix engineered for customizable mesoscale resistivity and high dielectric strength

We have synthesized a material consisting of conducting metal oxide (MoO3−x) nanoclusters embedded in a high-dielectric-strength insulator (Al2O3) matrix. The resistivity of this material can be customized by varying the concentration of the MoO3−x nanoclusters. The Al2O3 protects the MoO3−x from st...

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Bibliographic Details
Published in:Applied physics letters 2013-06, Vol.102 (25)
Main Authors: Tong, William M., Brodie, Alan D., Mane, Anil U., Sun, Fuge, Kidwingira, Françoise, McCord, Mark A., Bevis, Christopher F., Elam, Jeffrey W.
Format: Article
Language:English
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Summary:We have synthesized a material consisting of conducting metal oxide (MoO3−x) nanoclusters embedded in a high-dielectric-strength insulator (Al2O3) matrix. The resistivity of this material can be customized by varying the concentration of the MoO3−x nanoclusters. The Al2O3 protects the MoO3−x from stoichiometry change, thus conserving the number of carriers and maintaining a high dielectric strength. This composite material is grown by atomic layer deposition, a thin film deposition technique suitable for coating 3D structures. We applied these atomic layer deposition composite films to our 3D electron-optical micro electrical mechanical systems devices and greatly improved their performance.
ISSN:0003-6951
1077-3118
DOI:10.1063/1.4811480