Multiscale Model for the Extreme Piezoresistivity in Silicone/Nickel Nanostrand Nanocomposites

Multiscale Model for the Extreme Piezoresistivity in Silicone/Nickel Nanostrand Nanocomposites

Extreme piezoresistivity was discovered in a silicone/nickel nanostrand (silicone/NiNs) nanocomposite. A novel technique was developed to study the charge transport phenomena responsible for the piezoresistive mechanism in the silicone/NiNs system using conductive nanoindentation. A quantum mechanic...

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Veröffentlicht in:Metallurgical and materials transactions. A, Physical metallurgy and materials science Physical metallurgy and materials science, 2011-12, Vol.42 (13), p.3898-3906
Hauptverfasser: Johnson, Oliver K., Gardner, Calvin J., Seegmiller, Daniel B., Mara, Nathan A., Dattelbaum, Andrew M., Rae, Philip J., Kaschner, George C., Mason, Thomas A., Fullwood, David T., Hansen, George
Format: Artikel
Sprache:eng
Schlagworte:
Characterization and Evaluation of Materials
Chemistry and Materials Science
Materials Science
Mathematical models
Metallic Materials
Nanocomposites
Nanomaterials
Nanostructure
Nanotechnology
Nickel
Percolation
Piezoresistivity
Silicones
Simulation
Structural Materials
Surfaces and Interfaces
Symposium: Modeling
Theory of Nanomechanical Materials Behavior
Thin Films
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Zusammenfassung:Extreme piezoresistivity was discovered in a silicone/nickel nanostrand (silicone/NiNs) nanocomposite. A novel technique was developed to study the charge transport phenomena responsible for the piezoresistive mechanism in the silicone/NiNs system using conductive nanoindentation. A quantum mechanical tunneling (QMT)/percolation model was developed, which bridges the gap between quantum effects at the nanoscopic scale and bulk material response at the macroscopic scale. The predictions of this model are compared to experimental measurements.
ISSN:1073-5623
1543-1940
DOI:10.1007/s11661-011-0814-9