Ortiz Ricardo, Boto Roberto A, García-Martínez Noel, Sancho-García Juan C, Melle-Franco Manuel, Fernández-Rossier Joaquı N
QuantaLab , International Iberian Nanotechnology Laboratory (INL) , Av. Mestre José Veiga , 4715-330 Braga , Portugal.
Departamento de Física Aplicada , Universidad de Alicante , 03690 Sant Vicent del Raspeig , Spain.
Nano Lett. 2019 Sep 11;19(9):5991-5997. doi: 10.1021/acs.nanolett.9b01773. Epub 2019 Aug 12.
A variety of planar π-conjugated hydrocarbons such as heptauthrene, Clar's goblet and, recently synthesized, triangulene have two electrons occupying two degenerate molecular orbitals. The resulting spin of the interacting ground state is often correctly anticipated as = 1, extending the application of Hund's rules to these systems, but this is not correct in some instances. Here we provide a set of rules to correctly predict the existence of zero mode states as well as the spin multiplicity of both the ground state and the low-lying excited states, together with their open- or closed-shell nature. This is accomplished using a combination of analytical arguments and configuration interaction calculations with a Hubbard model, both backed by quantum chemistry methods with a larger Gaussian basis set. Our results go beyond the well established Lieb's theorem and Ovchinnikov's rule, as we address the multiplicity and the open-/closed-shell nature of both ground and excited states.
多种平面π共轭碳氢化合物,如庚搭烯、克拉尔杯芳烃以及最近合成的三角烯,有两个电子占据两个简并分子轨道。相互作用基态产生的自旋通常被正确预测为S = 1,从而将洪德规则应用扩展到这些体系,但在某些情况下这并不正确。在这里,我们提供了一组规则,以正确预测零模式态的存在以及基态和低激发态的自旋多重性,以及它们的开壳层或闭壳层性质。这是通过结合解析论证和使用哈伯德模型的组态相互作用计算来实现的,这两者都由具有更大高斯基组的量子化学方法支持。我们的结果超越了已确立的利布定理和奥夫钦尼科夫规则,因为我们解决了基态和激发态的多重性以及开壳层/闭壳层性质。
