The bulk modulus of C sub 60 molecules and crystals: A molecular mechanics approach

The bulk modulus of C sub 60 molecules and crystals: A molecular mechanics approach

In this letter, the bulk modulus of an individual C{sub 60} molecule is calculated in terms of the C,C bond force constant. A range of values for the bulk modulus is obtained with literature values for the force constant. The values obtained all exceed the bulk modulus (441 GPa) of diamond. With a C...

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Veröffentlicht in:Applied physics letters 1991-09, Vol.59:13
Hauptverfasser: Ruoff, R.S., Ruoff, A.L.
Format: Artikel
Sprache:eng
Schlagworte:
360603 - Materials- Properties
CARBON
COMPRESSIBILITY
CRYSTALS
DATA
ELEMENTS
INFORMATION
MATERIALS SCIENCE
MECHANICAL PROPERTIES
MOLECULES
NONMETALS
NUMERICAL DATA
THEORETICAL DATA
VERY HIGH PRESSURE
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Zusammenfassung:In this letter, the bulk modulus of an individual C{sub 60} molecule is calculated in terms of the C,C bond force constant. A range of values for the bulk modulus is obtained with literature values for the force constant. The values obtained all exceed the bulk modulus (441 GPa) of diamond. With a C,C bond force constant equal to that between adjacent carbon atoms in graphite, 7.08 mdyn/A, a bulk modulus of 903 GPa is obtained. On the basis of a simple composite model it is calculated that single closest-packed C{sub 60} crystals of C{sub 60} will have a bulk modulus of roughly 668 GPa under hydrostatic pressures. The calculated bulk modulus for a single C{sub 60} buckyball'' therefore suggests the possibility that a C{sub 60} crystal could be the most incompressible material known, at a pressure above about 50 GPa.
ISSN:0003-6951
1077-3118
DOI:10.1063/1.106280