三氯乙烷与氟原子的反应机理研究和速率常数计算

Study on reaction mechanism of trichloroethane and fluorine atom as well as calculation of rate constant

下载PDF

导出

摘要采用双水平直接动力学方法研究了反应CH3CCl3+F→CH2CCl3+HF的反应机理和动力学性质;在MPW1K/6-311+G(d,p)水平上优化了所有稳定点的几何构型,并通过频率分析进行了验证;随后在MCG3-MPWPW91//MPW1K水平上进行了能量校正,并利用变分过渡态理论,在MCG3-MPWPW91//MPW1K/6-311+G(d,p)水平上计算了反应在200～2 000K温度区间内的速率常数.结果表明,反应物CH3CCl3属于Cs点群,-CH3基团上的3个H原子等同,反应存在单个氢迁移反应通道. The mechanism and dynamical properties for the hydrogen-Abstraction reaction of 1,1,1-trichloroethane with fluorine atom over the temperature range of 200-2 000 K were investigated with dual-level direct dynamics method.The geometric configurations of all stable points were optimized at the MPW1K/6-311＋G（d,p） level and verified by frequency analysis.Moreover,energy calibration was conducted at the MCG3-MPWPW91//MPW1K level,and the rate constant of the reaction over a wide temperature range of 200-2 000 K was estimated based on canonical variational transition state theory at the MCG3-MPWPW91//MPW1K/6-311＋G（d,p） level.Path for the reaction was obtained theoritically.Results indicate that reactant CH3CCl3 belongs to Cs point group,and the three hydrogen atoms of-CH3 radical are identical,which allows the reaction to proceed via single-H transfer reaction channel.

作者赵建想王丽

机构地区河南大学化学化工学院

出处《化学研究》 CAS 2012年第6期64-66,共3页 Chemical Research

基金河南大学省部共建项目资助(SBGJ090507)

关键词三氯乙烷氟原子反应机理速率常数计算 CH3CCl3 F atom reaction mechanism rate constant calculation

分类号 O641.3 [理学—物理化学]

引文网络
相关文献

参考文献14

1KAISER E W. Relative rate constants for reactions of HFC 152a, 143, 143a, 134a and HCFC 124 with F or C1 atoms and for CF2CHa, CF2 HCH2, and CF3CFH radicals with Fz, C12 andO2[J]. J ChemKinet, 1993, 25: 667-680.
2PLAT Z J, NIELSEN O J, SEHESTED J. Atmospheric chemistry of i, l,l-trichloroethane: UV absorption spectra and self reaction kinetics of CC13 CH2 and CC13 CH2 02 radicals, kinetics of the reactions of the CCla CH2 02 radical with NO and NO2, and the fate of the alkoxy radical CC13CH20 [J]. J Phys Chem, 1995, 99: 6570-6579.
3TRUHLAR D G, HEIDRICH D. The reaction path in chemistry: current approaches and perspectives [M]. Kluwer, Dordrecht, The Netherlands, 1995: 229.
4TRUHLAR D G, GARRENT B C, KLIPPENSTEIN S J. Current status of transition-state theory [J]. J Phys Chem, 1996, 100: 12771-12779.
5HU Wei Ping, TRUHLAR D G. Factors affecting competitive ion-molecule reations C10 q-C2 Ha C1 and C2 D5 CI via E2 and S(N)2 channels[J]. J AmChemSoc, 1996, 118: 860-869.
6FRISCH M J, TRUCK G W, SCHLEGEL H B, et al. Gaussian 03, Revision A. 1: Guassian, Inc. , Pittsburgh, PA [CP]. 2003.
7ZHAO Yan, LYNCH B J, TRUHLAR D G. Multi-coefficient extrapolated density functional theory for thermochemistry and thermochemical kinetics [J]. Phys Chem Chem Phys, 2005, 7: 43-52.
8TRUHLAR D G, GARRETT B C. Variational transition state theory [J]. Acc Chem Res, 1980, 13: 440-448.
9TRUHLAR D G, ISAACSON A D, GARRETT B C. In the theory of chemical reaction dynamics[M]. Baer M Ed, CRC Press: Boca Raton, FL, 1985:65.
10CORCHADO J C, CHUANG Y Y, PAST P L, et al. POLYRATE, version 9.7: University of Minnesota, Minneapolis[CP]. 2007.

1朱洪清.三氯乙烷的制备反应[J].化学与粘合,1990(4):251-253.
2陈允魁,袁惠娟.1.1.1—三氯乙烷的气相色谱分析[J].上海科技大学学报,1994,17(2):159-162.
3汪帆.三氯乙烷的碳化反应[J].曲靖师范学院学报,2001,20(3):54-57.
4陈小明.由芳基甲醇和N,N-二取代甲酰胺直接合成苯甲酰胺的新方法[J].中国医药工业杂志,2013,44(4):385-385.
5明亮.三氯乙烷的碳炔化研究[J].南通医学院学报,2002,22(1):39-41.
6孟令鹏,郑世钧,蔡新华.氧原子与二硫化碳反应的机理[J].物理化学学报,1999,15(11):990-996. 被引量：7
7陈金斌,沈仁富,陈海红,王益萍,陈宇鸿.气相色谱法测定胶粘剂中的卤代烃[J].中国卫生检验杂志,2010,20(6):1347-1348. 被引量：1
8胡晓萍,王丙星,高颖,杨兵.Theoretical Studies on the Reaction Mechanism of Hydroxyl Radical with 1,1,1-Trichloroethane[J].Chinese Journal of Structural Chemistry,2011,30(8):1199-1206. 被引量：2
9汪朝存,姚思德.用脉冲辐解和激光光解技术研究C60和三氯乙烷的反应机理[J].Chinese Journal of Chemical Physics,1998,11(2):146-151.
10沈英,孙福生,董杰.分散液相微萃取-高效液相色谱法测定水中丙溴磷农药[J].分析化学,2010,38(4):551-554. 被引量：19

化学研究

2012年第6期

浏览历史

内容加载中请稍等...

三氯乙烷与氟原子的反应机理研究和速率常数计算

参考文献14

相关作者

相关机构

相关主题

浏览历史