溴乙烯的高分辨率脉冲场电离-光电子-光离子符合研究。
A high-resolution pulsed field ionization-photoelectron-photoion coincidence study of vinyl bromide.
作者信息
Qian X M, Lau K C, Ng C Y
机构信息
Department of Chemistry, University of California at Davis, Davis, California 95616, USA.
出版信息
J Chem Phys. 2004 Jun 15;120(23):11031-41. doi: 10.1063/1.1739402.
By employing the high-resolution pulsed field ionization-photoelectron (PFI-PE)-photoion coincidence method, we have examined the unimolecular dissociation reaction of energy-selected C(2)H(3)Br(+) to form C(2)H(3) (+)+Br near its threshold. The analysis of the breakdown curves for C(2)H(3)Br(+) and C(2)H(3) (+) yields a value of 11.9010+/-0.0015 eV for the 0 K dissociative photoionization threshold or appearance energy (AE) for C(2)H(3) (+) from C(2)H(3)Br. This AE(C(2)H(3) (+)) value, together with the ionization energy (IE) for C(2)H(3)Br (9.8200+/-0.0015 eV) obtained by PFI-PE and threshold photoelectron (TPE) measurements, has allowed the determination of the 0 K dissociation energy (D(0)) for the C(2)H(3) (+)-Br bond to be 2.081+/-0.002 eV. The 0 K AE(C(2)H(3) (+)) from C(2)H(3)Br obtained in this study corresponds to DeltaH(f0) ( composite function )(C(2)H(3) (+))=1123.7+/-1.9 kJ/mol. Combining the latter value and the known DeltaH(f0) ( composite function )(C(2)H(3))=306.7+/-2.1 kJ/mol, we calculated a value of 8.468+/-0.029 eV for the IE(C(2)H(3)), which is in accord with the result obtained in the previous photoionization efficiency study. We have also carried out high-level ab initio calculations for the IE(C(2)H(3)) at the Gaussian-3 and the CCSD(T,full)/CBS level of theory. The CCSD(T,full)/CBS prediction of 8.487 eV for the IE(C(2)H(3)-->bridged-C(2)H(3) (+)) is in good agreement with the IE(C(2)H(3)) value derived in the present experiment. Combining the 0 K AE(C(2)H(3) (+))=11.9010+/-0.0015 eV and the IE(C(2)H(3))=8.468+/-0.029 eV yields the value of 3.433+/-0.029 eV for D(0)(C(2)H(3)-Br). We have also recorded the TPE spectrum of C(2)H(3)Br in the energy range of 9.80-12.20 eV. Members (n=5-14) of four autoionizing Rydberg series converging to the C(2)H(3)Br(+)(A (2)A(')) state are observed in the TPE spectrum. The analysis of the converging limit of these Rydberg series and the vibrational TPE bands for C(2)H(3)Br(+)(A (2)A(')) has provided more precise values for the nu(6) (+) (1217+/-10 cm(-1)) and nu(8) (+) (478+/-8 cm(-1)) modes and the IE (10.9156+/-0.0010 eV) for the formation of C(2)H(3)Br(+)(A (2)A(')) from C(2)H(3)Br.
通过采用高分辨率脉冲场电离 - 光电子(PFI - PE) - 光离子符合方法,我们研究了能量选择的C₂H₃Br⁺在其阈值附近形成C₂H₃⁺ + Br的单分子解离反应。对C₂H₃Br⁺和C₂H₃⁺的分解曲线分析得出,C₂H₃⁺从C₂H₃Br的0K解离光电离阈值或出现能(AE)为11.9010±0.0015eV。这个AE(C₂H₃⁺)值,连同通过PFI - PE和阈值光电子(TPE)测量得到的C₂H₃Br的电离能(IE)(9.8200±0.0015eV),使得能够确定C₂H₃⁺ - Br键的0K解离能(D₀)为2.081±0.002eV。本研究中从C₂H₃Br得到的0K AE(C₂H₃⁺)对应于ΔHf₀(复合函数)(C₂H₃⁺) = 1123.7±1.9kJ/mol。将后一个值与已知的ΔHf₀(复合函数)(C₂H₃) = 306.7±2.1kJ/mol相结合,我们计算出C₂H₃的IE值为8.468±0.029eV,这与先前光电离效率研究的结果一致。我们还在高斯 - 3和CCSD(T,全)/CBS理论水平上对C₂H₃的IE进行了高水平的从头算计算。CCSD(T,全)/CBS对IE(C₂H₃→桥连 - C₂H₃⁺)的预测值为8.487eV,与本实验得出的IE(C₂H₃)值吻合良好。结合0K AE(C₂H₃⁺) = 11.9010±0.0015eV和IE(C₂H₃) = 8.468±0.029eV,得出D₀(C₂H₃ - Br)的值为3.433±0.029eV。我们还记录了C₂H₃Br在9.80 - 12.20eV能量范围内的TPE光谱。在TPE光谱中观察到四个自电离里德堡系列(n = 5 - 14)收敛到C₂H₃Br⁺(A²A')态。对这些里德堡系列的收敛极限和C₂H₃Br⁺(A²A')的振动TPE带的分析为ν₆⁺(1217±10cm⁻¹)和ν₈⁺(478±8cm⁻¹)模式以及C₂H₃Br形成C₂H₃Br⁺(A²A')的IE(10.9156±0.0010eV)提供了更精确的值。
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