Nanoengineering mechanically robust aerogels via control of foam morphology | Zendy

S. O. Kucheyev | Zendy; Theodore F. Baumann | Zendy; C. A. Cox | Zendy; Yinmin Wang | Zendy; Joe H. Satcher | Zendy; A. V. Hamza | Zendy; J. E. Bradby | Zendy

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Nanoengineering mechanically robust aerogels via control of foam morphology

Author(s) -

S. O. Kucheyev,

Theodore F. Baumann,

C. A. Cox,

Yinmin Wang,

Joe H. Satcher,

A. V. Hamza,

J. E. Bradby

Publication year - 2006

Publication title -

applied physics letters

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.182

H-Index - 442

eISSN - 1077-3118

pISSN - 0003-6951

DOI - 10.1063/1.2236222

Subject(s) - aerogel , materials science , nanoporous , nanoengineering , morphology (biology) , composite material , phase (matter) , modulus , nanotechnology , chemistry , genetics , organic chemistry , biology

Potential of aerogels for technological applications is often limited by their poor mechanical properties. Here, we demonstrate that alumina aerogel monoliths with excellent mechanical properties can be made by controlling the crystallographic phase, shape, and size of nanoligaments. In particular, we show that thermal processing of aerogels with a morphology of interconnected nanoleaflets causes dehydration and associated curling of the nanoleaflets, resulting in a dramatic improvement of mechanical properties. This study shows an effective way to control mechanical properties of the nanoporous solids that can be synthesized with ligaments having a quasi-two-dimensional shape, such as platelets, ribbons, or leaflets.

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