2007
DOI: 10.1103/physrevb.76.205203
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Large uniaxial negative thermal expansion in pentacene due to steric hindrance

Abstract: The uniaxial negative thermal expansion in pentacene crystals along a is a particularity in the series of the oligoacenes and is exceptionally large for a crystalline solid. Full x-ray structure analysis from 120 to 413 K reveals that the dominant thermal motion is a libration of the rigid molecules about their long axes, modifying the intermolecular angle which describes the herringbone packing within the layers. This herringbone angle increases with temperature ͑by 0.3°-0.6°per 100 K͒ and causes an anisotrop… Show more

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Cited by 81 publications
(79 citation statements)
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“…The obtained librational motion of pentacene using the DFT-D approach is shown in Fig. 1(b) as a function of temperature, which is in good agreement with the results of the TLS analysis of crystal structures in the present and the previous 16 experimental observations.…”
supporting
confidence: 79%
“…The obtained librational motion of pentacene using the DFT-D approach is shown in Fig. 1(b) as a function of temperature, which is in good agreement with the results of the TLS analysis of crystal structures in the present and the previous 16 experimental observations.…”
supporting
confidence: 79%
“…This observation becomes clear considering the interlocked heptafluorobutyl groups of adjacent molecules in the a-phase, which impose a severe constraint on the spatial expansion at elevated temperatures. As a result of the pronounced thermal expansion along the a-and c-axes of the b-phase in combination with a weak intermolecular interaction, the b-direction shows even a slight compression upon heating a b ¼ À 0.2 Â 10 À 4 K À 1 , which refers to a superimposed rotation of molecules 37 ARTICLE might be considered as reference temperature for the intrinsic a-to b-phase transition without superimposed effects by latent heat or kinetic hindrances.…”
Section: Resultsmentioning
confidence: 99%
“…The orientation of the cellobiose chain in the x 1 -x 2 plane and the identification of the role of rotation of these chains about the x 3 -axis is analogous to the mechanism proposed for anisotropic (including negative) thermal expansion in pentacene crystals (Haas et al 2007). The tilt angle identified in this work is analogous to the herringbone angle describing the packing of the assumed rigid pentacene molecules.…”
Section: Discussionmentioning
confidence: 99%