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Mechanical Characterization of Atomically Thin Membranes

$300,000FY2010ENGNSF

University Of Texas At Austin, Austin TX

Investigators

Abstract

The Ruoff group will undertake studies of the mechanical properties of atomically thin membranes. Two tools will be used to make these measurements: An atomic force microscope will directly stress the membranes. An optical profilometer will separately be used to measure the deflection of the membranes as a function of applied pressure. Several different materials will be measured: atom-thick graphene, oxidized graphene, single layer clays, and very thin amorphous carbon films. Models will be developed to better understand the mechanical behavior of these very thin films and to extract the basic mechanical properties from the experimental data. Such atomically thin membranes will find use in a host of important applications, such as for pressure sensing, and as electromechanical and chemical sensing elements. The database established for the mechanical response of individual layers and few-layer stacks will be relevant to understanding the role such thin platelets play in composite materials, and in a variety of applications such as nanoelectronics and senors. The project includes significant outreach such as research training for graduate students and postdoctoral fellows, summer research experiences for high school and undergraduate students and high school teachers, additions to course materials used at UT Austin, and curriculum development for grades 7-12. Research results will be disseminated by publication in quality journals, and invited talks at universities, national laboratories, institutes, and other public forums, at international conferences, and on a highly visible web site.

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