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Synthesis, Structural, and Intriguing Electronic Properties of Symmetrical Bis-Aryl-α,β-Unsaturated Ketone Derivatives.

Akbar AliMuhammad AshfaqZia Ud DinMuhammad IbrahimMuhammad KhalidMohammed A AssiriArish RiazMuhammad Nawaz TahirEdson Rodrigues-FilhoMuhammad ImranAleksey E Kuznetsov
Published in: ACS omega (2022)
Three symmetrical bis-aryl- α,β -unsaturated ketone derivatives, 2,6-di(( E )-benzylidene)-cyclohexan-1-one ( DBC ), 2,6-bis(( E )-4-chlorobenzylidene)cyclohexan-1-one ( BCC ), and (1 E ,1' E ,4 E ,4' E )-5,5'-(1,4-phenylene)bis(2-methyl-1-phenylpenta-1,4-dien-3-one) ( PBMP ), have been prepared using the aldol condensation approach toward ketones having two enolizable sites. The structures of DBC, BCC , and PBMP have been resolved via spectrometric methods. Moreover, the crystal structure of PBMP is determined by the single-crystal X-ray diffraction (SC-XRD) technique, which revealed that the PBMP molecular assembly is stabilized by the intermolecular C-H···O bonding and C-O···π and weak T-shaped offset π···π stacking interactions. The Hirshfeld surface analysis (HSA) of the PBMP crystal structure was performed as well, and the results were compared with the results of DBC and BCC . The density functional theory (DFT) study results revealed that the longer conjugated molecule of PBMP has smaller but still quite significant HOMO-LUMO gaps compared to the smaller molecules of BCC and DBC . The natural population analysis (NPA) and natural bonding orbital (NBO) analysis were performed. Accordingly, the hydrogen bonding and dipole-dipole interactions stabilize the crystal structures of these compounds. Additionally, the NBO analysis showed numerous high-energy stabilizing interactions for the PBMP compound due to the presence of numerous delocalized and relatively easily polarizable π-electrons, thus implying its significant thermodynamic stability. According to the global reactivity parameter (GRP) analysis, the compounds BCC and DBC are relatively stable in redox processes and have high thermodynamic stability and relatively lower reactivity in general. The molecular electrostatic potential (MEP) analysis results imply potential formation of the intermolecular hydrogen bonding and dispersion interactions, which stabilizes the crystal structures of these compounds.
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