Department of Chemistry, Brown University, Providence, Rhode Island 02912, USA.
Phys Chem Chem Phys. 2012 Oct 21;14(39):13663-9. doi: 10.1039/c2cp42218b.
A class of transition-metal-centered aromatic boron wheels (D(nh)-M©B(n)(q-)) have been recently produced and characterized according to an electronic design principle. Here we investigate the interplay between electronic and geometric requirements for the molecular wheels using the case of VB(10)(-), which is isoelectronic to the decacoordinated molecular wheels, Ta©B(10)(-) and Nb©B(10)(-). Photoelectron spectra of VB(10)(-) are observed to be broad and complicated with relatively low electron binding energies, in contrast to the simple and high electron binding energies observed for the molecular wheels of its heavier congeners. An unbiased global minimum search found the most stable isomer of VB(10)(-) to be a singlet "boat"-like structure (C(2)), in which the V atom is coordinated to a quasi-planar B(10) unit. A similar triplet C(2v) boat-like isomer is found to be almost degenerate to the C(2) structure, whereas the beautiful molecular wheel structure, D(10h)-V©B(10)(-), is significantly higher in energy on the potential energy surface. Therefore, even though the VB(10)(-) system fulfills the electronic requirement to form a D(10h)-M©B(10)(-) aromatic molecular wheel, the V atom is too small to stabilize the ten-membered boron ring.
一类基于过渡金属中心的芳香硼轮(D(nh)-M©B(n)(q-)) 根据电子设计原理最近被合成并进行了表征。在这里,我们研究了分子轮的电子和几何要求之间的相互作用,以 VB(10)(-)为例,VB(10)(-)与十配位的分子轮 Ta©B(10)(-) 和 Nb©B(10)(-) 等电子。VB(10)(-)的光电子能谱观察到很宽且复杂,具有相对较低的电子结合能,与较重同系物的分子轮所观察到的简单和高电子结合能形成对比。无偏见的全局最小搜索发现 VB(10)(-)最稳定的异构体是单重态“船”状结构(C(2)),其中 V 原子与准平面 B(10)单元配位。类似的三重态 C(2v)船状异构体几乎与 C(2)结构简并,而美丽的分子轮结构 D(10h)-V©B(10)(-)在势能表面上的能量明显更高。因此,尽管 VB(10)(-)系统满足形成 D(10h)-M©B(10)(-)芳香分子轮的电子要求,但 V 原子太小,无法稳定十元硼环。
