Detail publikace
Extraordinary deformation capacity of smallest carbohelicene springs
ŠESTÁK, P. WU, J. HE, J. POKLUDA, J. ZHANG, Z.
Originální název
Extraordinary deformation capacity of smallest carbohelicene springs
Typ
článek v časopise ve Web of Science, Jimp
Jazyk
angličtina
Originální abstrakt
The extraordinary deformation and loading capacity of nine different [N]carbohelicene springs under uniaxial tension up to their fracture were computed using the density functional theory. The simulations comprised either the experimentally synthetized springs of hexagonal rings or the hypothetical ones that contained irregularities (defects) as, for example, pentagons replacing the hexagons. The results revealed that the presence of such defects can significantly improve mechanical properties. The maximum reversible strain varied from 78% to 222%, the maximum tensile force varied in the range of 5 nN to 7 nN and, moreover, the replacement of hexagonal rings by pentagons or heptagons significantly changed the location of double bonds in the helicenes. The fracture analysis revealed two different fracture mechanisms that could be related to the configurations of double and single bonds located at the internal atomic chain. Simulations performed with and without van der Waals interactions between intramolecular atoms showed that these interactions played an important role only in the first deformation stage.
Klíčová slova
ab initio, carbohelicene, deformation capacity
Autoři
ŠESTÁK, P.; WU, J.; HE, J.; POKLUDA, J.; ZHANG, Z.
Rok RIV
2015
Vydáno
10. 6. 2015
Nakladatel
Royal Society of Chemistry
ISSN
1463-9076
Periodikum
Physical Chemistry Chemical Physics
Ročník
17
Číslo
28
Stát
Spojené království Velké Británie a Severního Irska
Strany od
18684
Strany do
18690
Strany počet
7
URL
BibTex
@article{BUT115154,
author="Petr {Šesták} and Jianyang {Wu} and Jianying {He} and Jaroslav {Pokluda} and Zhiliang {Zhang}",
title="Extraordinary deformation capacity of smallest carbohelicene springs",
journal="Physical Chemistry Chemical Physics",
year="2015",
volume="17",
number="28",
pages="18684--18690",
doi="10.1039/c5cp02043c",
issn="1463-9076",
url="http://pubs.rsc.org/en/Content/ArticleLanding/2015/CP/C5CP02043C#!divAbstract"
}