Thermally driven interfacial dynamics of metal/oxide bilayer nanoribbons.

Thermally driven interfacial dynamics of metal/oxide bilayer nanoribbons. Research Abstract Details 

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Thermally driven interfacial dynamics of metal/oxide bilayer nanoribbons. Abstract Text:

Solid-solid interfacial processes greatly affect the performance of electronic and composite materials, but probing the dynamics of buried interfaces is challenging and often involves lengthy or invasive sample preparation. We show that bilayer nanoribbons-made here of tin dioxide and copper-are convenient structures for observing as-made interfaces as they respond to changing temperature in a transmission electron microscope (TEM). At low temperatures (<200 degrees C), differential thermal expansion causes the bilayers to bend when heated or cooled, with the motion determined by the extent of Cu-SnO(2) epitaxy. At higher temperatures, we are able to watch-in real time and with nanometer resolution-a progression of grain growth, interdiffusion, island formation, solid-state chemical reactions, and melting. This novel TEM geometry is readily applicable to other nanoribbon/coating combinations and is well suited to observing interfacial phenomena driven thermally or by the application of mechanical, electrical, or magnetic forces.

Thermally driven interfacial dynamics of metal/oxide bilayer nanoribbons. Publishing Authors By Initials

For similar inorganic chemicals: tin compounds research abstracts see: inorganic chemicals: tin compounds research

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Thermally driven interfacial dynamics of metal/oxide bilayer nanoribbons. Journal Published:

PUBLICATION TYPE: Research Support, U.S. Gov't,

Journal: Small (Weinheim an der Bergstrasse, Germany)

VOLUME: 1

Page Numbers: 858-65

Journal Abbreviation: Small

ISSN: 1613-6829

DAY: 17

MONTH: Aug

YEAR: 2005

Thermally driven interfacial dynamics of metal/oxide bilayer nanoribbons. Information

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LANGUAGE: eng

NlmUniqueID: 101235338

Thermally driven interfacial dynamics of metal/oxide bilayer nanoribbons. Keywords Mesh Terms:

KEYWORDS: Tin Compounds

MESH TERMS: chemistry

Chemical & Substance for Abstract: Thermally driven interfacial dynamics of metal/oxide bilayer nanoribbons. Information

Substance Name: Copper

Registry Number: 7440-50-8

Grant and Affiliation Information for Thermally driven interfacial dynamics of metal/oxide bilayer nanoribbons.

AFFILIATION: Department of Chemistry, University of California, Berkeley, Berkeley, California 94720, USA.

Country: Germany

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MEDLINETA: Small

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