Tian Shan Xi, Li Hai-Bei, Bai Yubin, Yang Jinlong
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.
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。