Elucidation of the inverse trans influence in uranyl and its imido and carbene analogues via quantum chemical simulation†
Abstract
The inverse trans influence (ITI) is investigated in uranyl, UO22+, and its isoelectronic imido (U(NH)22+) and carbene (U(CH2)22+) analogues at the density functional and complete active space self consistent field levels of theory. The quantum theory of atoms in molecules is employed to quantify, for the first time, the effect of the ITI on covalent bond character and its relationship to bond lengths and complex stability.
- This article is part of the themed collection: New molecules and materials from the f-block