非 IP 富勒烯 C ：异构体 29（C）和 40（T）的开壳性质。

Open-shell nature of non-IPR fullerene С: isomers 29 (C) and 40 (T).

机构信息

Arbuzov Institute of Organic and Physical Chemistry, FRC Kazan Scientific Center, Russian Academy of Sciences, Kazan, Russian Federation.

Kazan National Research Technological University, Kazan, Russian Federation.

出版信息

J Mol Model. 2021 Jan 7;27(2):22. doi: 10.1007/s00894-020-04625-9.

DOI:10.1007/s00894-020-04625-9

PMID:33411089

Abstract

It is well-known that the small non-IPR fullerenes C (n < 60) are highly unstable and that is why they cannot be obtained as empty cages. However, they become stable as exohedral or endohedral derivatives. In this report, the molecular structures of non-IPR isomers 29 (C) and 40 (T) of fullerene C are investigated using a semiempirical approach developed earlier for higher fullerenes. Quantum-chemical calculations (DFT) show that isomers 29 (C) and 40 (T) have open-shell structures. The distributions of single, double, and delocalized π-bonds in the isomer molecules in question are presented for the first time as well as their molecular formulas. It is found unusual for higher fullerenes chain of π-bonds passing through some cycles. Identified features in the structures of small fullerene molecules can be predictive of the ability to their synthesis as derivatives and will assist in their structure determination.

摘要

众所周知，小的非专利全碳富勒烯 C（n<60）极不稳定，因此不能作为空笼获得。然而，它们作为外或内笼衍生物变得稳定。在本报告中，使用先前为更高全碳富勒烯开发的半经验方法研究了非专利全碳富勒烯 C 的异构体 29（C）和 40（T）的分子结构。量子化学计算（DFT）表明异构体 29（C）和 40（T）具有开壳结构。首次提出了所研究异构体分子中单、双和离域π键的分布及其分子公式。在更高全碳富勒烯中，通过一些环传递的π键链是不寻常的。在小分子全碳富勒烯的结构中发现的特征可以预测其作为衍生物的合成能力，并有助于它们的结构确定。

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非 IP 富勒烯 C ：异构体 29（C）和 40（T）的开壳性质。

Open-shell nature of non-IPR fullerene С: isomers 29 (C) and 40 (T).

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