Structural Manifestations of the Polarizability Effect in 1-Halogensilatranes According to the Dipole-Induced Dipole Mechanism


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Abstract

A new mechanism of the dipole-induced dipole polarizability effect by the example of

1-halogensilatranes is proposed. The mechanism involves a through-space interaction between the dipole moment μ of the core and the dipole Δμ which is induced on the halogen and, in turn, induces an extra dipole ΔΔμ on the transannular bond Si ← N to make it stronger. This effect explains for the first time the previously discovered contradiction for 1-halogensilatranes where an inverse dependence in the linear correlations between the Si ← N bond length, δ15N, δ1H(CH2N) chemical shifts, and the inductive constant σ are observed. For example, the length of the Si ← N coordination bond is shorter in 1-chlorosilatranе than in 1-fluorosilatrane due to the fact that the polarizability effect is stronger than the inductive effect in the case of the Cl atom.

About the authors

S. N. Tandura

Zelinsky Institute of Organic Chemistry

Email: belyaevav@irioch.irk.ru
Russian Federation, Moscow

V. V. Belyaeva

Favorsky Institute of Chemistry, Siberian Branch

Author for correspondence.
Email: belyaevav@irioch.irk.ru
Russian Federation, Irkutsk

V. P. Baryshok

Irkutsk National Research Technical University

Email: belyaevav@irioch.irk.ru
Russian Federation, Irkutsk

B. A. Gostevsky

Favorsky Institute of Chemistry, Siberian Branch

Email: belyaevav@irioch.irk.ru
Russian Federation, Irkutsk

V. I. Smirnov

Favorsky Institute of Chemistry, Siberian Branch

Email: belyaevav@irioch.irk.ru
Russian Federation, Irkutsk

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