Abstract

The classical MD (Molecular Dynamics) method was used to simulate the tension of three kinds of C240 isomers, i.e., C240 nanotube, chain-like 4C60 fullerene polymer and peanut-like 4C60 fullerene polymer. Then, the semi-empirical PM3 method was used to calculate their electronic structures under tension. Lastly, according to the calculated results, their differences in tensile mechanical properties, as well as the change of their FMO (Frontier Molecular Orbital) energy during tension, were discussed. It is shown that: (1) the load-support capability of the C240 molecules has the order of C240 nanotube > peanut-like 4C60 polymer > linear 4C60 polymer, but their deformation-support capability has the contrary order, (2) of the C240 isomers, the C240 nanotube has the best chemical stability, and the chain-like 4C240 molecule has the worst one, and (3) the deformed C240 isomers have narrower energy-gap between their LUMO and HOMO, and higher chemical activity.

Full Text
Published version (Free)

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call