Abstract
Molecular electrostatic potential and Electron density topography in a series of nitrotriprismanes (C 6H 6− α (NO 2) α , α=1–6) have been analyzed using the Hartree–Fock and hybrid density functional methods. Weak, electrostatic C–H⋯O interactions, which render more stability to the isomers of nitroprismane, manifest in the shallow minima of the nitro groups along a series. As revealed from the molecular electron density topography the critical points of the X–N (X=C or N) bonds correlate well with the heat of formation derived from the isodesmic reaction approach.
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