Center for Time-Resolved Diffraction, Department of Chemistry, Graduate School of Nanoscience & Technology (WCU), KAIST, Daejeon 305-701, Republic of Korea.
J Phys Chem A. 2011 Feb 24;115(7):1264-71. doi: 10.1021/jp109456v. Epub 2011 Jan 27.
Quantum chemical calculations of CF(3)Br and the CF(3) radical are performed using density functional theory (DFT) and time-dependent DFT (TDDFT). Molecular structures, vibrational frequencies, dipole moment, bond dissociation energy, and vertical excitation energies of CF(3)Br are calculated and compared with available experimental results. The performance of six hybrid and five hybrid meta functionals in DFT and TDDFT calculations are evaluated. The ωB97X, B3PW91, and M05-2X functionals give very good results for molecular structures, vibrational frequencies, and vertical excitation energies, respectively. The ωB97X functional calculates well the dipole moment of CF(3)Br. B3LYP, one of the most widely used functionals, does not perform well for calculations of the C-Br bond length, bond dissociation energy, and vertical excitation energies. Potential energy curves of the low-lying excited states of CF(3)Br are obtained using the multiconfigurational spin-orbit ab initio method. The crossing point between 2A(1) and 3E states is located near the C-Br bond length of 2.45 Å. Comparison with CH(3)Br shows that fluorination does not alter the location of the crossing point. The relation between the calculated potential energy curves and recent experimental result is briefly discussed.
采用密度泛函理论(DFT)和含时密度泛函理论(TDDFT)对 CF(3)Br 和 CF(3)自由基进行量子化学计算。计算并比较了 CF(3)Br 的分子结构、振动频率、偶极矩、键离解能和垂直激发能,并与可用的实验结果进行了比较。评估了六种混合泛函和五种杂化泛函在 DFT 和 TDDFT 计算中的性能。ωB97X、B3PW91 和 M05-2X 泛函分别对分子结构、振动频率和垂直激发能给出了很好的结果。ωB97X 泛函很好地计算了 CF(3)Br 的偶极矩。B3LYP 是最广泛使用的泛函之一,但在计算 C-Br 键长、键离解能和垂直激发能时表现不佳。采用多组态自旋轨道从头算方法得到了 CF(3)Br 低能激发态的势能曲线。2A(1)和 3E 态之间的交叉点位于 C-Br 键长为 2.45 Å 附近。与 CH(3)Br 的比较表明,氟化不会改变交叉点的位置。简要讨论了计算势能曲线与最近实验结果之间的关系。
