Michielsen Bart, Herrebout Wouter A, van der Veken Benjamin J
Department of Chemistry, University of Antwerp, Groenenborgerlaan 171, B2020 Antwerp, Belgium.
Chemphyschem. 2007 Jun 4;8(8):1188-98. doi: 10.1002/cphc.200700126.
The complex of halothane (CHClBrCF(3)) and dimethyl ether has been investigated experimentally in solutions of liquid krypton using infrared spectroscopy and theoretically using ab initio calculations at the MP2/6-311++G(d,p) level. The formation of a 1:1 complex was experimentally detected. The most stable ab initio geometry found is the one in which the C--H bond of halothane interacts with the oxygen atom of dimethyl ether. The complexes in which the chlorine or the bromine atom of halothane interacts with the oxygen atom of the ether were found to be local energy minima and were less stable by 14.5 and 9.3 kJ mol(-1), respectively, than the global minimum. The formation of a single complex species was observed in the infrared spectra; the standard complexation enthalpy of this complex was determined to be -12.3(8) kJ mol(-1). Analysis of the observed complexation shifts supports the identification of the complex as the hydrogen-bonded species. The C--H stretching vibration of halothane was found to show a redshift upon complexation of 19(2) cm(-1). The infrared intensity ratios epsilon(complex)/epsilon(monomer) for the fundamental and its first overtone were measured to be 6.5(1) and 0.31(1). The frequency shift was analyzed using Morokuma-type analysis, and the infrared intensity ratios were rationalized using a model including the mechanical and electric anharmonicity of the C--H stretching fundamental.
已使用红外光谱法在液态氪溶液中对氟烷(CHClBrCF(3))与二甲醚的复合物进行了实验研究,并在MP2/6 - 311++G(d,p)水平上使用从头算进行了理论研究。通过实验检测到了1:1复合物的形成。从头算得到的最稳定几何结构是氟烷的C - H键与二甲醚的氧原子相互作用的结构。发现氟烷的氯或溴原子与醚的氧原子相互作用的复合物是局部能量极小值,分别比全局极小值不稳定14.5和9.3 kJ mol(-1)。在红外光谱中观察到形成了单一的复合物物种;该复合物的标准络合焓测定为 -12.3(8) kJ mol(-1)。对观察到的络合位移的分析支持将该复合物鉴定为氢键物种。发现氟烷的C - H伸缩振动在络合时出现19(2) cm(-1)的红移。测得该基频及其第一泛频的红外强度比ε(复合物)/ε(单体)分别为6.5(1)和0.31(1)。使用Morokuma型分析对频移进行了分析,并使用包含C - H伸缩基频的机械和电非谐性的模型对红外强度比进行了合理解释。