Romano Rosana M, Picone A Lorena, Downs Anthony J
CEQUINOR (UNLP-CONICET), Departamento de Química, Facultad de Ciencias Exactas, Universidad Nacional de La Plata, 47 esq. 115, (1900) La Plata, Argentina.
J Phys Chem A. 2006 Nov 9;110(44):12129-35. doi: 10.1021/jp064432t.
Weakly bound 1:1 complexes formed between CS2 and a dihalogen molecule XY = Cl2, Br2, BrCl, ICl, or IBr have each been trapped in an Ar matrix and hence investigated experimentally by their IR spectra as well as theoretically by MP2 and density functional calculations. A planar structure, with an intermolecular angle close to 90 degrees , is expected for such a S=C=S...XY molecular complex. Moreover, for each system involving a heteronuclear dihalogen, two possible complexes exist, viz., S=C=S...XY and S=C=S...YX. The calculated structures, vibrational properties, and binding energetics of the complexes are analyzed, and the NBO formalism is used to interpret their bonding properties. The IR spectra of the complexes thus simulated provided vital guidance for the interpretation of the matrix spectra. For example, complexation was predicted and observed (i) to induce red shifts of the principal absorptions associated with both the CS2 and XY components and (ii) to result, through the change in symmetry, in activation of some modes that are IR-silent for the free components.
二硫化碳(CS₂)与二卤分子XY(XY = Cl₂、Br₂、BrCl、ICl或IBr)形成的弱键1:1配合物均已被捕获在氩气基质中,因此通过红外光谱进行了实验研究,并通过MP2和密度泛函计算进行了理论研究。对于这样的S=C=S...XY分子配合物,预期会有一个分子间角度接近90度的平面结构。此外,对于每个涉及异核二卤的体系,存在两种可能的配合物,即S=C=S...XY和S=C=S...YX。分析了配合物的计算结构、振动性质和结合能,并使用自然键轨道(NBO)形式来解释它们的键合性质。由此模拟得到的配合物红外光谱为基质光谱的解释提供了重要指导。例如,预测并观察到配合作用(i)会导致与CS₂和XY组分相关的主要吸收峰发生红移,以及(ii)会通过对称性变化导致一些对于自由组分而言红外非活性的模式被激活。
