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Journal article

Compressibility and thermal expansion of cubic silicon nitride

By Jiang, Jianzhong1; Lindelov, H.2; Gerward, Leif1; Ståhl, Kenny3,4; Recio, R.M.5; Mori-Sanchez, P.5; Carlson, S.6; Mezouar, M.6; Dooryhee, E.6; Fitch, A.6; Frost, D.J.7 ...and 1 more

From

Department of Physics, Technical University of Denmark1

Technical University of Denmark2

X-ray Crystallography, Department of Chemistry, Technical University of Denmark3

Department of Chemistry, Technical University of Denmark4

University of Oviedo5

European Synchrotron Radiation Facility6

University of Bayreuth7

The compressibility and thermal expansion of the cubic silicon nitride (c-Si3N4) phase have been investigated by performing in situ x-ray powder-diffraction measurements using synchrotron radiation, complemented with computer simulations by means of first-principles calculations. The bulk compressibility of the c-Si3N4 phase originates from the average of both Si-N tetrahedral and octahedral compressibilities where the octahedral polyhedra are less compressible than the tetrahedral ones.

The origin of the unit cell expansion is revealed to be due to the increase of the octahedral Si-N and N-N bond lengths with temperature, while the lengths for the tetrahedral Si-N and N-N bonds remain almost unchanged in the temperature range 295-1075 K.

Language: English
Year: 2002
ISSN: 1550235x , 10980121 , 01631829 and 10953795
Types: Journal article
DOI: 10.1103/PhysRevB.65.161202
ORCIDs: Ståhl, Kenny
Keywords

BETA-SI3N4 SI3N4 SPINEL PHASE

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