Záliš Stanislav, Hunter Bryan M, Gray Harry B, Vlček Antonín
J. Heyrovský Institute of Physical Chemistry, Czech Academy of Sciences , Dolejškova 3, 182 23 Prague, Czech Republic.
Beckman Institute, California Institute of Technology , Pasadena, California 91125, United States.
Inorg Chem. 2017 Mar 6;56(5):2874-2883. doi: 10.1021/acs.inorgchem.6b03001. Epub 2017 Feb 20.
Molecular and electronic structures of Ir(1,8-diisocyanomenthane) (Ir(dimen)) complexes have been investigated by DFT for n = 2, 1, 0 (abbreviated 2+, 1+, 0). Calculations reproduced the experimental structure of 2+, ν(C≡N) IR, and visible absorption spectra of all three oxidation states, as well as the EPR spectrum of 1+. We have shown that the two reduction steps correspond to successive filling of the Ir-Ir pσ orbital. Complexes 2+ and 1+ have very similar structures with 1+ having a shorter Ir-Ir distance. The unpaired electron density in 1+ is delocalized along the Ir-Ir axis and over N atoms of the eight C≡N- ligands. The second reduction step 1+ → 0 changes the Ir(CN-) coordination geometry at each Ir site from approximately planar to seesaw whereby one -N≡C-Ir-C≡N- moiety is linear and the other bent at the Ir (137°) as well as N (146°) atoms. Although complex 0 is another example of a rare (pσ) dimetallic species (after [Pt(μ-PO(BF))], J. Am. Chem. Soc. 2016, 138, 5699), the redistribution of lower lying occupied molecular orbitals increases electron density predominantly at the bent C≡N- ligands whose N atoms are predicted to be nucleophilic reaction centers.
通过密度泛函理论(DFT)研究了铱(1,8 - 二异氰基薄荷烷)(Ir(dimen))配合物在n = 2、1、0(简称为2 +、1 +、0)时的分子结构和电子结构。计算结果重现了2 +的实验结构、ν(C≡N)红外光谱以及所有三种氧化态的可见吸收光谱,还有1 +的电子顺磁共振(EPR)光谱。我们已经表明,两个还原步骤对应于Ir - Ir pσ轨道的连续填充。配合物2 +和1 +具有非常相似的结构,1 +的Ir - Ir距离较短。1 +中的未成对电子密度沿着Ir - Ir轴并在八个C≡N -配体的N原子上离域。第二个还原步骤1 + → 0将每个Ir位点处的Ir(CN -)配位几何结构从近似平面变为跷跷板形,其中一个 -N≡C - Ir - C≡N -部分是线性的,另一个在Ir(137°)以及N(146°)原子处弯曲。尽管配合物0是罕见的(pσ)双金属物种的另一个例子(继[Pt(μ - PO(BF))]之后,《美国化学会志》2016年,138卷,5699页),较低占据分子轨道的重新分布主要增加了弯曲的C≡N -配体处的电子密度,其N原子预计是亲核反应中心。
