乙硼烷与π轨道之间的独特相互作用:氢键的蓝移还是红移?
Unique interactions between diborane and pi orbitals: blue- or red-shifted hydrogen bonding?
作者信息
Tian Shan Xi, Li Hai-Bei, Bai Yubin, Yang Jinlong
机构信息
Hefei National Laboratory for Physical Sciences at the Microscale and Department of Chemical Physics, University of Science and Technology of China, Hefei, Anhui, 230026, China.
出版信息
J Phys Chem A. 2008 Sep 4;112(35):8121-8. doi: 10.1021/jp802849z. Epub 2008 Aug 13.
A new type of hydrogen-bonding interaction in the diborane (B 2H 6)...pi (benzene C 6H 6, 1,3-cyclopentadiene C 5H 6, and cyclobutadiene C 4H 4) system is identified with the natural bond orbital and atoms-in-molecules analyses based on ab initio calculations. In comparison with the symmetric and asymmetric stretching vibrational modes of the bridging hydrogen atoms in free B 2H 6, the frequencies of the symmetric mode are red-shifted for B 2H 6...C 6H 6 and B 2H 6...C 5H 6 but blue-shifted for B 2H 6...C 4H 4. The frequency blue shifts of the asymmetric mode are found for all three complexes; the most significant blue shift is 14.73 cm (-1) for the asymmetric mode in B 2H 6...C 4H 4. In these complexes, the electron-deficient three-center two-electron bond B-H 1-B facing the pi orbital is shortened, while the opposite B-H 2-B bond is elongated.
基于从头算计算,通过自然键轨道和分子中的原子分析,在乙硼烷(B₂H₆)...π(苯C₆H₆、1,3 - 环戊二烯C₅H₆和环丁二烯C₄H₄)体系中确定了一种新型氢键相互作用。与游离B₂H₆中桥连氢原子的对称和不对称伸缩振动模式相比,B₂H₆...C₆H₆和B₂H₆...C₅H₆的对称模式频率发生红移,而B₂H₆...C₄H₄的对称模式频率发生蓝移。在所有三种配合物中均发现不对称模式的频率蓝移;B₂H₆...C₄H₄中不对称模式的最大蓝移为14.73 cm⁻¹。在这些配合物中,面向π轨道的缺电子三中心两电子键B - H₁ - B缩短,而相对的B - H₂ - B键伸长。
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