Computational synthesis of hydrogenated fullerenes from C 60 to C 60H 60

Hydrogenation from C 60 to C 60H 60 was studied by an unrestricted broken spin symmetry Hartree-Fock approach implemented in semiempirical codes based on the AM1 technique. The calculations focused on the successive addition of hydrogen molecules to the fullerene cage following the identification of the cage target atoms by calculating the highest atomic chemical susceptibility at each step. The results obtained are analyzed from energy, symmetry, and composition perspectives. © 2010 Springer-Verlag.

Authors

Sheka E.F. ¹

Journal

Journal of Molecular Modeling

Number of issue

Language

English

Pages

1973-1984

Status

Published

Link

External link

DOI

10.1007/s00894-010-0895-1

Volume

Year

2011

Organizations

¹ Peoples' Friendship University of Russia, Moscow 117197, Russian Federation

Keywords

Atomic chemical susceptibility; Computational synthesis; Hydrogenated fullerene C 60; Quantum chemistry; Unrestricted broken symmetry approach

Date of creation

19.10.2018

Date of change

19.10.2018

Short link

https://repository.rudn.ru/en/records/article/record/2516/

DIFFERENTIAL-ALGEBRAIC EQUATIONS OF PROGRAMMED MOTIONS OF LAGRANGIAN DYNAMICAL SYSTEMS

Article

Mukharlyamov R.G.

Mechanics of Solids. Vol. 46. 2011. P. 534-543

WHERE HAVE ALL THE FLOWERS GONE?

Article

Jargin S.V.

South African Medical Journal. Vol. 101. 2011.

Computational synthesis of hydrogenated fullerenes from C 60 to C 60H 60

Other records

DIFFERENTIAL-ALGEBRAIC EQUATIONS OF PROGRAMMED MOTIONS OF LAGRANGIAN DYNAMICAL SYSTEMS

WHERE HAVE ALL THE FLOWERS GONE?