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Mechanistic studies of HF/BF 3 -catalyzed anthracene polymerization to prepare mesophase pitch.

Authors :
Fan X
Ren Q
Shen H
Wang C
Ni Q
Long J
Source :
Journal of molecular modeling [J Mol Model] 2024 Jan 06; Vol. 30 (1), pp. 25. Date of Electronic Publication: 2024 Jan 06.
Publication Year :
2024

Abstract

Context: The mesophase pitch prepared by acid catalytic method typically had the advantages of low softening point and high solubility. To fully understand the mechanism of acid-catalyzed reactions and gain a deeper understanding of the microstructure of mesophase pitch, this article studied the mechanism of hydrofluoride/boron trifluoride (HF/BF <subscript>3</subscript> )-catalyzed anthracene using molecular simulation methods. The results showed that there might be two types of carbocations present in the system: classical and non-classical carbocations, and five reactions might occur, protonation reaction, chain elongation reaction, intramolecular cyclization reaction, deprotonation reaction, and dehydrogenation reaction. Classical carbocations acted as reactive intermediates in the chain elongation reaction and intramolecular cyclization reaction. When anthracene occurred chain elongation reactions with carbocations to form polymers, the generation of the tetramer required lager energy barriers than that of the dimer and trimer. The stiffness and flatness of molecules could be increased via intramolecular cyclization reactions. The polymers of anthracene might also occurred dehydrogenation reactions when the non-classical carbocations played the role of reactive intermediates. The dehydrogenation reactions required large energy barriers, which might be the reason for the product having a high aliphatic hydrogen content.<br />Method: The Materials Studio (MS) 2020 software was used to complete the simulation. The atomic charge distribution calculation and the structure optimization of molecules were carried out using the B3LYP functional and DNP basis. The DFT-D (TS) dispersion corrections were added to calculate the dispersion interaction between aromatic molecules. The complete LST/QST method was used to search the transition states and calculate the reaction energy barrier.<br /> (© 2024. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Details

Language :
English
ISSN :
0948-5023
Volume :
30
Issue :
1
Database :
MEDLINE
Journal :
Journal of molecular modeling
Publication Type :
Academic Journal
Accession number :
38183499
Full Text :
https://doi.org/10.1007/s00894-023-05819-7