Elastic Properties of 4–6 nm-thick Glassy Carbon Thin Films

Glassy carbon is a disordered, nanoporous form of carbon with superior thermal and chemical stability in extreme environments. Freestanding glassy carbon specimens with 4–6 nm thickness and 0.5 nm average pore size were synthesized and fabricated from polyfurfuryl alcohol precursors. Elastic propert...

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Detalles Bibliográficos
Autores principales: Manoharan, MP, Lee, H, Rajagopalan, R, Foley, HC, Haque, MA
Formato: Texto
Lenguaje:English
Publicado: Springer 2009
Materias:
Nano Express
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2894143/
https://www.ncbi.nlm.nih.gov/pubmed/20652145
http://dx.doi.org/10.1007/s11671-009-9435-2
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author Manoharan, MP
Lee, H
Rajagopalan, R
Foley, HC
Haque, MA
author_facet Manoharan, MP
Lee, H
Rajagopalan, R
Foley, HC
Haque, MA
author_sort Manoharan, MP
collection PubMed
description Glassy carbon is a disordered, nanoporous form of carbon with superior thermal and chemical stability in extreme environments. Freestanding glassy carbon specimens with 4–6 nm thickness and 0.5 nm average pore size were synthesized and fabricated from polyfurfuryl alcohol precursors. Elastic properties of the specimens were measured in situ inside a scanning electron microscope using a custom-built micro-electro-mechanical system. The Young’s modulus, fracture stress and strain values were measured to be about 62 GPa, 870 MPa and 1.3%, respectively; showing strong size effects compared to a modulus value of 30 GPa at the bulk scale. This size effect is explained on the basis of the increased significance of surface elastic properties at the nanometer length-scale.
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spelling pubmed-28941432010-07-21 Elastic Properties of 4–6 nm-thick Glassy Carbon Thin Films Manoharan, MP Lee, H Rajagopalan, R Foley, HC Haque, MA Nanoscale Res Lett Nano Express Glassy carbon is a disordered, nanoporous form of carbon with superior thermal and chemical stability in extreme environments. Freestanding glassy carbon specimens with 4–6 nm thickness and 0.5 nm average pore size were synthesized and fabricated from polyfurfuryl alcohol precursors. Elastic properties of the specimens were measured in situ inside a scanning electron microscope using a custom-built micro-electro-mechanical system. The Young’s modulus, fracture stress and strain values were measured to be about 62 GPa, 870 MPa and 1.3%, respectively; showing strong size effects compared to a modulus value of 30 GPa at the bulk scale. This size effect is explained on the basis of the increased significance of surface elastic properties at the nanometer length-scale. Springer 2009-09-23 /pmc/articles/PMC2894143/ /pubmed/20652145 http://dx.doi.org/10.1007/s11671-009-9435-2 Text en Copyright ©2009 to the authors
spellingShingle Nano Express
Manoharan, MP
Lee, H
Rajagopalan, R
Foley, HC
Haque, MA
Elastic Properties of 4–6 nm-thick Glassy Carbon Thin Films
title Elastic Properties of 4–6 nm-thick Glassy Carbon Thin Films
title_full Elastic Properties of 4–6 nm-thick Glassy Carbon Thin Films
title_fullStr Elastic Properties of 4–6 nm-thick Glassy Carbon Thin Films
title_full_unstemmed Elastic Properties of 4–6 nm-thick Glassy Carbon Thin Films
title_short Elastic Properties of 4–6 nm-thick Glassy Carbon Thin Films
title_sort elastic properties of 4–6 nm-thick glassy carbon thin films
topic Nano Express
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2894143/
https://www.ncbi.nlm.nih.gov/pubmed/20652145
http://dx.doi.org/10.1007/s11671-009-9435-2
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