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Theoretical Studies on the Isomerization Kinetics of Low-Lying Isomers of the SiC 4 H 2 System.

Nisha JobVijayanand ChandrasekaranVenkatesan S ThimmakonduKrishnan Thirumoorthy
Published in: The journal of physical chemistry. A (2023)
The low-lying isomers of SiC 4 H 2 are investigated to understand the kinetics of isomerization pathways using density functional theory. In our earlier work, we studied the various possible isomers ( J. Phys. Chem. A , 2020 , 124, 987-1002) and the chemical bonding of low-lying isomers of SiC 4 H 2 ( J. Phys. Chem. A , 2022 , 126, 9366-9374). Among them, four isomers, 1-ethynyl-3-silacycloprop-1-en-3-ylidene ( 1 ), 3-silapent-1,4-diyn-3-ylidene ( 2 ), 1-silapent-1,2,3,4-tetraen-1-ylidene ( 4 ), and 1-silapent-2,4-diyn-1-ylidene ( 5 ) have already been identified in the laboratory. The previously known theoretical isomer 2-methylene-1-silabicyclo[1.1.0]but-1(3)-en-4-ylidene ( 3 ) and the newly identified unknown isomer through the present kinetic studies 5-silabicyclo[2.1.0]pent-1(4),2-dien-5-ylidene ( N6 ) remain elusive in the laboratory to date. The isomerization pathways of the low-lying isomers of SiC 4 H 2 are predicted through the transition state structures. Intrinsic reaction coordinate analysis identifies the minimum energy reaction pathways connecting the transition state from one isomer to another of the investigated system. The present kinetic data reveal the isomerization of global minimum energy isomer 1 to thermodynamically stable low-lying isomers, 2 and 5 . Interestingly, isomer 3 interconverts to the experimentally known low-energy isomer 4 , the second most thermodynamically stable isomer among them. The thermodynamic and kinetic parameters of the low-lying isomers of SiC 4 H 2 are also documented in this work. The rate coefficient and equilibrium constant for isomerization reactions are calculated using the Rice-Ramsperger-Kassel-Marcus theory. The equilibrium constant delineates the difficulties in forming N6 and 3 through the isomerization pathways. Furthermore, ab initio molecular dynamics studies dictate the stability of low-lying isomers of SiC 4 H 2 within the time scale of the simulation.
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