Mechanistic aspects of the activation of C–H bond in C2H6 by Th atom: bonding analysis and reaction coefficients

被引：0

作者：

Qingqing Wang

Peng Li

Tao Gao

Bingyun Ao

机构：

[1] Sichuan University,Institute of Atomic and Molecular Physics

[2] Shanxi University,College of Physics and Electronic Engineering

[3] Science and Technology on Surface Physics and Chemistry Laboratory,undefined

来源：

Theoretical Chemistry Accounts | 2016年 / 135卷

关键词：

Atoms in molecules; C–H activation; Electron localization function; Natural bond orbital; Variational transition state theory;

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摘要：

Density functional theory (DFT) calculations have been performed to investigate the reactivity of Th atom toward ethane C–H bond activation. To get the mechanism of the C–H bond activation by C2H6, a systematic DFT computational study is implemented. Comprehensive description of the reaction mechanism in the consideration of the possible spin states as well as analysis of the electronic factors offers detail information of C–H bond activation. The results indicate that the final reaction products of C–H breakage are the ThC2H3 and ThC2H2. The nature of the bonding evolution along the reaction pathways was explored using distinct analysis method including electron localization function, atoms in molecules and natural bond orbital. Reaction rate constants were computed between 298 and 1000 K at levels of variational transition state theory for the first time.

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共 38 条

[31] Analysis of C-13 and O-17 chemical shift tensors and an ELF view of bonding in Fe-2(CO)(9) and Rh-6(CO)(16) [J].

Kaupp, M .

CHEMISCHE BERICHTE, 1996, 129 (05) :527-533

[32] An electron localization function analysis of the molecular mechanism and the C-O bond formation in the [3+2] cycloaddition reaction involving zwitterionic type between a nitrone and an electron deficient ethyne [J].

Benallou, Abdelilah ;

El Abdallaoui, Habib El Alaoui ;

Garmes, Hocine .

PROGRESS IN REACTION KINETICS AND MECHANISM, 2019, 45

[33] Influences of the substituents on the M-M bonding in Cp4Al4 and Cp2M2X2 (M = B, Al, Ga; Cp = C5H5, X = halogen) [J].

Lu, Feifei ;

Li, Xiaoyan ;

Sun, Zheng ;

Zeng, Yanli ;

Meng, Lingpeng .

DALTON TRANSACTIONS, 2015, 44 (31) :14092-14100

[34] A dual-level ab initio and hybrid density functional theory dynamics study on the unimolecular decomposition reaction C2H5O→CH2O+CH3 [J].

Zhang, Y ;

Zhang, SW ;

Li, QS .

JOURNAL OF COMPUTATIONAL CHEMISTRY, 2004, 25 (02) :218-226

[35] Stability and donor-acceptor bond in dinuclear organometallics CpM1-M2Cl3 (M1, M2 = B, Al, Ga, In; Cp = η5-C5H5) [J].

Dang, Yaru ;

Meng, Lingpeng ;

Qin, Mei ;

Li, Qingzhong ;

Li, Xiaoyan .

JOURNAL OF MOLECULAR MODELING, 2018, 24 (01)

[36] Simultaneous exhibition of positive and negative cooperativity by purely C-HMIDLINE HORIZONTAL ELLIPSISO H-bonded (1,3-cyclohexanedione)n (n=2-6) clusters: A density functional theoretical investigation [J].

Monu ;

Oram, Binod Kumar ;

Bandyopadhyay, Biman .

INTERNATIONAL JOURNAL OF QUANTUM CHEMISTRY, 2021, 121 (08)

[37] Electron pairing analysis of the Fischer-type chromium-carbene complexes (CO)5Cr=C(X)R (X = H, OH, OCH3, NH2, NHCH3 and R = H, CH3,CH=CH2,Ph, CCH) [J].

Poater, J ;

Cases, M ;

Fradera, X ;

Duran, M ;

Solà, M .

CHEMICAL PHYSICS, 2003, 294 (02) :129-139

[38] Structural-dynamic approach and path analysis of the intramolecular electron transfer in the bridged complexes [(NH3)5Ru-py-(C2H2)n-py-Ru(NH3)5]5+ withn = 0,1,2,3 [J].

O. V. Sizova ;

V. I. Baranovskii ;

A. I. Panin .

Journal of Structural Chemistry, 1999, 40 :173-186

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