Theoretical Study on Experimentally Detected Sc2S@C84 |
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| Authors: | Chong Zhao Dan Lei Prof. Li‐Hua Gan Dr. Zhu‐Xia Zhang Prof. Chun‐Ru Wang |
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| Affiliation: | 1. Southwest University, School of Chemistry & Chemical Engineering, Beibei, Chongqing, 400715 (China), Fax: (+)?86‐23‐68254000;2. Beijing National Laboratory for Molecular Sciences, Institute of Chemistry, Beijing, 100190 (China) |
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| Abstract: | Sc2S@C84 has recently been detected but not structurally characterized. 1 Density functional theory calculations on C84 and Sc2S@C84 show that the favored isomer of Sc2S@C84 shares the same parent cage as Sc2C2@C84, whereas Sc2S@C84:51383, which violates the isolated‐pentagon rule, is the second lowest energy isomer with the widest HOMO–LUMO gap and shows high kinetic stability. The analysis shows that Sc2S@C84:51575 is favored when the temperature exceeds 2 800 K and it can transform into the most favorable isomer Sc2S@C84:51591. Molecular orbital analysis indicates that both Sc2S and Sc2C2 formally transfer four electrons to the cage, and quantum theory of atoms in molecules analysis demonstrates that there is a covalent interaction between Sc2S and C84:51591. The IR spectra of Sc2S@C84 are provided to aid future structural identification. |
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| Keywords: | density functional calculations fullerenes molecular orbitals quantum chemistry scandium |
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