1. Analysis of Stability and (Anti)aromaticity of BN‐Dibenzo[a,e]pentalenes.
- Author
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Stojanović, Milovan and Baranac‐Stojanović, Marija
- Subjects
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AROMATICITY , *HYDROCARBONS , *BUTADIENE , *ISOMERS , *ISOMERIZATION - Abstract
Relatively scarce literature data on BN/CC isosterism in 4nπ‐electronic systems have prompted us to investigate theoretically the influence of BN pair position within the central butadiene fragment of dibenzo[a,e]pentalene on two fundamental molecular properties: stability and (anti)aromaticity. It was found that stability and aromaticity follow the same trend only for BN‐orientational isomers. The source of different stability of other isomers was examined first by an analysis of bond types and their dissociation energies and then by isomerization energy decomposition analysis and was explained in terms of classical electrostatic interactions, quantum‐mechanical orbital interactions, structural changes and electronic changes (transition from charge‐separated π‐system to the neutral one). (Anti)aromaticity was investigated by using three kinds of indices, HOMA, FLUπ, and NICS(1)zz, which indicated that delocalization at the central pentalene motif is almost unaffected by various BN arrangements, molecular perimeter is slightly affected, while the most affected subunits are five‐membered rings and benzene‐fused five‐membered rings containing only one heteroatom. The BN/CC isosterism is increasingly exploited to tune physical and biochemical properties of organic compounds. Here, we use density functional calculations to explore how BN/CC substitution modifies local, semilocal and global (anti)aromaticity of the 4nπ‐electronic dibenzo[a,e]pentalene and to predict and explain the relative stability of the six isomeric BN‐dibenzo[a,e]pentalenes. [ABSTRACT FROM AUTHOR]
- Published
- 2018
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