Structures and energetics of regioisomers of C60 dimer and trimers

Kee Hag Lee; Heui Man Eun; Sung Soo Park; Young Sun Suh; Kwang Woo Jung; Seung Mi Lee; Young Hee Lee; E. Osawa

doi:10.1021/jp000432w

Structures and energetics of regioisomers of C₆₀ dimer and trimers

Kee Hag Lee
, Heui Man Eun
, Sung Soo Park
, Young Sun Suh
, Kwang Woo Jung
, Seung Mi Lee
, Young Hee Lee
, E. Osawa

Research output: Contribution to journal › Article › peer-review

17 Scopus citations

Abstract

Ten different regioisomers of C₆₀ trimers with intact cages were studied using the empirical tight-binding (TB) total energy calculation and the semiempirical PM3, AM1, and MNDO methods. We determined the stable atomic structure and energies of 10 (C₆₀)₃ regioisomers with ETBTEC, PM3, AM1, and MNDO calculations. The dimerization of C₆₀ is exothermic according to the density-functional-based nonorthogonal tight-binding (DF-TB) method; the semiempirical PM3, AM1, and MNDO; and the ab initio 3-21G LDA and HF calculations, but it is endothermic in both the TB and the ab initio B3LYP6-31G*//4-21G B3LYP calculations. Therefore, according to the TB calculations, the most stable regioisomer of C₆₀ trimers is equatorial. The energies of the trans-3(C₂), trans-1(D_2h), trans-2(C₂), trans-4(C_s), cis-1 (C_3v), cis-2(C_s), cis-3(C₂), cis-1(C_s), and cis-2(C_3v) regioisomers relative to the equatorial regioisomer are 13, 19, 20, 30, 66, 99, 169, 215, and 673 meV, respectively.

Original language	English
Pages (from-to)	7038-7042
Number of pages	5
Journal	Journal of Physical Chemistry B
Volume	104
Issue number	30
DOIs	https://doi.org/10.1021/jp000432w
State	Published - 3 Aug 2000
Externally published	Yes

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@article{d556d04d89cb44b0a2f2ec0bf3a8e076,

title = "Structures and energetics of regioisomers of C60 dimer and trimers",

abstract = "Ten different regioisomers of C60 trimers with intact cages were studied using the empirical tight-binding (TB) total energy calculation and the semiempirical PM3, AM1, and MNDO methods. We determined the stable atomic structure and energies of 10 (C60)3 regioisomers with ETBTEC, PM3, AM1, and MNDO calculations. The dimerization of C60 is exothermic according to the density-functional-based nonorthogonal tight-binding (DF-TB) method; the semiempirical PM3, AM1, and MNDO; and the ab initio 3-21G LDA and HF calculations, but it is endothermic in both the TB and the ab initio B3LYP6-31G*//4-21G B3LYP calculations. Therefore, according to the TB calculations, the most stable regioisomer of C60 trimers is equatorial. The energies of the trans-3(C2), trans-1(D2h), trans-2(C2), trans-4(Cs), cis-1 (C3v), cis-2(Cs), cis-3(C2), cis-1(Cs), and cis-2(C3v) regioisomers relative to the equatorial regioisomer are 13, 19, 20, 30, 66, 99, 169, 215, and 673 meV, respectively.",

author = "Lee, \{Kee Hag\} and Eun, \{Heui Man\} and Park, \{Sung Soo\} and Suh, \{Young Sun\} and Jung, \{Kwang Woo\} and Lee, \{Seung Mi\} and Lee, \{Young Hee\} and E. Osawa",

year = "2000",

month = aug,

day = "3",

doi = "10.1021/jp000432w",

language = "English",

volume = "104",

pages = "7038--7042",

journal = "Journal of Physical Chemistry B",

issn = "1520-6106",

publisher = "American Chemical Society",

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TY - JOUR

T1 - Structures and energetics of regioisomers of C60 dimer and trimers

AU - Lee, Kee Hag

AU - Eun, Heui Man

AU - Park, Sung Soo

AU - Suh, Young Sun

AU - Jung, Kwang Woo

AU - Lee, Seung Mi

AU - Lee, Young Hee

AU - Osawa, E.

PY - 2000/8/3

Y1 - 2000/8/3

N2 - Ten different regioisomers of C60 trimers with intact cages were studied using the empirical tight-binding (TB) total energy calculation and the semiempirical PM3, AM1, and MNDO methods. We determined the stable atomic structure and energies of 10 (C60)3 regioisomers with ETBTEC, PM3, AM1, and MNDO calculations. The dimerization of C60 is exothermic according to the density-functional-based nonorthogonal tight-binding (DF-TB) method; the semiempirical PM3, AM1, and MNDO; and the ab initio 3-21G LDA and HF calculations, but it is endothermic in both the TB and the ab initio B3LYP6-31G*//4-21G B3LYP calculations. Therefore, according to the TB calculations, the most stable regioisomer of C60 trimers is equatorial. The energies of the trans-3(C2), trans-1(D2h), trans-2(C2), trans-4(Cs), cis-1 (C3v), cis-2(Cs), cis-3(C2), cis-1(Cs), and cis-2(C3v) regioisomers relative to the equatorial regioisomer are 13, 19, 20, 30, 66, 99, 169, 215, and 673 meV, respectively.

AB - Ten different regioisomers of C60 trimers with intact cages were studied using the empirical tight-binding (TB) total energy calculation and the semiempirical PM3, AM1, and MNDO methods. We determined the stable atomic structure and energies of 10 (C60)3 regioisomers with ETBTEC, PM3, AM1, and MNDO calculations. The dimerization of C60 is exothermic according to the density-functional-based nonorthogonal tight-binding (DF-TB) method; the semiempirical PM3, AM1, and MNDO; and the ab initio 3-21G LDA and HF calculations, but it is endothermic in both the TB and the ab initio B3LYP6-31G*//4-21G B3LYP calculations. Therefore, according to the TB calculations, the most stable regioisomer of C60 trimers is equatorial. The energies of the trans-3(C2), trans-1(D2h), trans-2(C2), trans-4(Cs), cis-1 (C3v), cis-2(Cs), cis-3(C2), cis-1(Cs), and cis-2(C3v) regioisomers relative to the equatorial regioisomer are 13, 19, 20, 30, 66, 99, 169, 215, and 673 meV, respectively.

UR - https://www.scopus.com/pages/publications/0034250318

U2 - 10.1021/jp000432w

DO - 10.1021/jp000432w

M3 - Article

AN - SCOPUS:0034250318

SN - 1520-6106

VL - 104

SP - 7038

EP - 7042

JO - Journal of Physical Chemistry B

JF - Journal of Physical Chemistry B

IS - 30

ER -

Structures and energetics of regioisomers of C₆₀ dimer and trimers

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