Litcius/Paper detail

The Structure of Bis(catecholato)silanes: Phase Adaptation by Dynamic Covalent Chemistry of the Si–O Bond

Deborah Hartmann, Thaddäus Thorwart, Rosa Müller, Jean Thusek, Jan Schwabedissen, Andreas Mix, Jan‐Hendrik Lamm, Beate Neumann, Norbert W. Mitzel, Lutz Greb

2021Journal of the American Chemical Society55 citationsDOI

Abstract

Catechols occupy a unique role in the structural, bio-, and geochemistry of silicon. Although a wealth of knowledge exists on their hypercoordinate complexes, the structure of tetracoordinate bis(catecholato)silane, Si(catH)2 1, has been enigmatic since its first report in 1951. Indeed, the claim of a planar-tetracoordinated silicon in 1 triggered a prominent debate, which is unsettled to this day. Herewith, we present a comprehensive structural study on 1 and derivatives in the gas phase by electron diffraction, in a neon matrix by IR spectroscopy, in solution by diffusion NMR spectroscopy, and in the solid-state by X-ray diffraction and MAS NMR spectroscopy, complemented by high-level quantum-chemical computations. The compound exhibits unprecedented phase adaptation. In the gas phase, the monomeric bis(catecholato)silane is tetrahedral, but in the condensed phase, it is metastable toward oligomerization up to a degree controllable by the type of catechol, temperature, and concentration. For the first time, spectroscopic evidence is obtained for a rapid Si–O σ-bond metathesis reaction. Hence, this study sorts out a long-lasting debate and confirms dynamic covalent features for our Earth’s crust’s most abundant chemical bond.

Topics & Concepts

ChemistryTetracoordinateSilanesCovalent bondNuclear magnetic resonance spectroscopyCrystallographySilaneSiliconPhase (matter)MetathesisSalt metathesis reactionDynamic covalent chemistryElectron diffractionMetastabilityPhotochemistryPolymerizationOrganic chemistryDiffractionSupramolecular chemistryCrystal structurePolymerComputer sciencePhysicsPlanarComputer graphics (images)OpticsAdvanced NMR Techniques and ApplicationsOrganoboron and organosilicon chemistryMuon and positron interactions and applications