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Chemical Bonding in Transition Metal Nitride Os3N3 + Cluster: 6? Inorganic Benzene and ?2?*1?*1 Aromaticity.


ABSTRACT: Inorganic benzene-like clusters with a planar hexagonal ring are of interest in chemistry, as are new types of aromaticity, multifold aromaticity, and in particular ? aromaticity beyond carbon-based organic systems. Here we report on a computational study of chemical bonding in a binary Os3N3 + D 3h (7A2?) cluster. This transition metal nitride cluster assumes a perfectly planar, heteroatomic, hexagonal geometry. An array of quantum chemistry tools is exploited to elucidate the electronic, structural, and bonding properties of D 3h Os3N3 + cluster, which include canonical molecular orbitals, adaptive natural density partitioning, natural bond orbital analysis, orbital composition calculations, and nucleus-independent chemical shifts. The computational data collectively support the bonding picture of 2-fold ?/? aromaticity: 6? electrons delocalized over all Os/N centers versus an Os-based 4? framework in the unique ?2?*1?*1 configuration. The ? sextet renders this heteroatomic cluster an inorganic analog of benzene. Transition metal-based inorganic benzenes are unknown in the literature, to our knowledge. The triplet 4? electron-counting is a rare case of d-orbital aromaticity and ?-aromaticity, following the reversed 4n Hückel rule for aromaticity in a triplet system. This bonding picture is concrete, differing fundamentally from a recent study on the relevant system.

SUBMITTER: Liu N 

PROVIDER: S-EPMC6643571 | biostudies-literature | 2018 Dec

REPOSITORIES: biostudies-literature

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Chemical Bonding in Transition Metal Nitride Os<sub>3</sub>N<sub>3</sub> <sup>+</sup> Cluster: 6π Inorganic Benzene and δ<sup>2</sup>δ*<sup>1</sup>δ*<sup>1</sup> Aromaticity.

Liu Na N   You Xue-Rui XR   Zhai Hua-Jin HJ  

ACS omega 20181211 12


Inorganic benzene-like clusters with a planar hexagonal ring are of interest in chemistry, as are new types of aromaticity, multifold aromaticity, and in particular δ aromaticity beyond carbon-based organic systems. Here we report on a computational study of chemical bonding in a binary Os<sub>3</sub>N<sub>3</sub> <sup>+</sup> <i>D</i> <sub>3<i>h</i></sub> (<sup>7</sup>A<sub>2</sub>″) cluster. This transition metal nitride cluster assumes a perfectly planar, heteroatomic, hexagonal geometry. An  ...[more]

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