Quantum Chemical Study on the Abstraction Reaction of Alkylidenecarbene and Its Substituted Species with Thiirane

Acta Chimica Sinica ›› 2005, Vol. 63 ›› Issue (15): 1402-1408. Previous Articles Next Articles

Original Articles

亚烷基卡宾及取代亚烷基卡宾与环硫乙烷反应的量子化学研究

耿志远*，方冉，王永成，张兴辉，王冬梅，戴国梁，吕玲玲

(西北师范大学化学化工学院甘肃省高分子材料重点实验室兰州 730070)

投稿日期:2004-12-09 修回日期:2005-04-11 发布日期:2010-12-10
通讯作者: 耿志远

Quantum Chemical Study on the Abstraction Reaction of Alkylidenecarbene and Its Substituted Species with Thiirane

GENG Zhi-Yuan*, FANG Ran, WANG Yong-Cheng, ZHANG Xing-Hui, WANG Dong-Mei, DAI Guo-Liang, LÜ Ling-Ling

(Gansu Key Laboratory of Polymer Materials, College of Chemistry and Chemical Engineering, Northwest Normal University, Lanzhou 730070)

Received:2004-12-09 Revised:2005-04-11 Published:2010-12-10
Contact: GENG Zhi-Yuan

Abstract

The mechanisms of the abstraction reactions of alkylidenecarbenes have been characterized in detail using density functional theory. All the stationary points were determined at the B3LYP/6-311G(d, p) level of the theory. The transition states both to the reactants and the product direction in the reaction paths were examined by using the intrinsic reaction coordinate. A configuration mixing model based on the work of Pross and Shaik was used to rationalize the computational results. The results show that the electro negativity of the substituents played an important role in predicting its activity for the abstraction reactions. The major conclusion was that the stronger the π-donation or the more electro negativity the substituents, the smaller the ΔE_ST of XYC＝C and the lower the activation energy for the abstraction reactions. In other words, it is the electronic factors, rather than the steric factors, that play a decisive role in the chemistry of the alkylidenecarbene species. Furthermore, a comparison with oxirane also led to the same result.

Key words: alkylidenecarbene, ab initio, density functional theory, transition state

Cite this article

GENG Zhi-Yuan*, FANG Ran, WANG Yong-Cheng, ZHANG Xing-Hui, WANG Dong-Mei, DAI Guo-Liang, LÜ Ling-Ling. Quantum Chemical Study on the Abstraction Reaction of Alkylidenecarbene and Its Substituted Species with Thiirane[J]. Acta Chimica Sinica, 2005, 63(15): 1402-1408.

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亚烷基卡宾及取代亚烷基卡宾与环硫乙烷反应的量子化学研究

Quantum Chemical Study on the Abstraction Reaction of Alkylidenecarbene and Its Substituted Species with Thiirane

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[1]	Guanglong Huang, Xiao-Song Xue. Computational Study on the Mechanism of Chen’s Reagent as Trifluoromethyl Source [J]. Acta Chimica Sinica, 2024, 82(2): 132-137.
[2]	Xuefeng Liang, Jian Jing, Xin Feng, Yongze Zhao, Xinyuan Tang, Yan He, Lisheng Zhang, Huifang Li. Electronic Structure of Covalent Organic Frameworks COF66 and COF366: from Monomers to Two-Dimensional Framework [J]. Acta Chimica Sinica, 2023, 81(7): 717-724.
[3]	Lei Yang, Jiaoyang Ge, Fangli Wang, Wangyang Wu, Zongxiang Zheng, Hongtao Cao, Zhou Wang, Xueqin Ran, Linhai Xie. A Theoretical Study on the Effective Reduction of Internal Reorganization Energy Based on the Macrocyclic Structure of Fluorene [J]. Acta Chimica Sinica, 2023, 81(6): 613-619.
[4]	Jie Yang, Lin Ling, Yuxue Li, Long Lu. Density Functional Theory Study on Thermal Decomposition Mechanisms of Ammonium Perchlorate [J]. Acta Chimica Sinica, 2023, 81(4): 328-337.
[5]	Shaoqin Zhang, Meiqing Li, Zhongjun Zhou, Zexing Qu. Theoretical Study on the Multiple Resonance Thermally Activated Delayed Fluorescence Process [J]. Acta Chimica Sinica, 2023, 81(2): 124-130.
[6]	Jinjing Liu, Na Yang, Li Li, Zidong Wei. Theoretical Study on the Regulation of Oxygen Reduction Mechanism by Modulating the Spatial Structure of Active Sites on Platinum^★ [J]. Acta Chimica Sinica, 2023, 81(11): 1478-1485.
[7]	Wenchao Bi, Linfeng Zhang, Jian Chen, Ruixue Tian, Hao Huang, Man Yao. Lithiation Mechanism and Performance of Monoclinic ZnP₂ Anode Materials [J]. Acta Chimica Sinica, 2022, 80(6): 756-764.
[8]	Xuefei Luan, Congzhi Wang, Liangshu Xia, Weiqun Shi. Theoretical Studies on the Interaction of Uranyl with Carboxylic Acids and Oxime Ligands [J]. Acta Chimica Sinica, 2022, 80(6): 708-713.
[9]	Luocong Wang, Zhewei Li, Caiwei Yue, Peihuan Zhang, Ming Lei, Min Pu. Theoretical Study on the Isomerization Mechanism of Azobenzene Derivatives under Electric Field [J]. Acta Chimica Sinica, 2022, 80(6): 781-787.
[10]	Yinghui Wang, Simin Wei, Jinwei Duan, Kang Wang. Mechanism of Silyl Enol Ethers Hydrogenation Catalysed by Frustrated Lewis Pairs: A Theoretical Study [J]. Acta Chimica Sinica, 2021, 79(9): 1164-1172.
[11]	Qingmin Man, Zunyun Fu, Tiantian Liu, Mingyue Zheng, Hualiang Jiang. DFT Mechanism of Cu Catalyzed Coupling Reaction to Alkyl Aryl Ethers [J]. Acta Chimica Sinica, 2021, 79(7): 948-952.
[12]	Yan Wang, Yingqi Tian, Zhong Jin, Bingbing Suo. Hartree-Fock and Density Functional Calculations on Graphics Processing Unit [J]. Acta Chimica Sinica, 2021, 79(5): 653-657.
[13]	Yu Mohan, Cheng Yuanyuan, Liu Yajun. Mechanistic Study of Oxygenation Reaction in Firefly Bioluminescence [J]. Acta Chimica Sinica, 2020, 78(9): 989-993.
[14]	Lu Xiaoqing, Cao Shoufu, Wei Xiaofei, Li Shaoren, Wei Shuxian. Investigation on Oxygen Reduction Reaction Mechanism on S Doped Fe-NC lsolated Single Atoms Catalyst [J]. Acta Chimica Sinica, 2020, 78(9): 1001-1006.
[15]	Yang Zhice, Tian Jianan, Cai Hongxue, Li Li, Pan Qingjiang. Theoretical Probe for Tris(aryloxide)arene Complexed Low-valent Actinide Ions and Their Structural/Redox Properties [J]. Acta Chimica Sinica, 2020, 78(10): 1096-1101.