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- Title
Planar Tetracoordinate Silicon in Organic Molecules As Carbenoid‐Type Amphoteric Centers: A Computational Study.
- Authors
Zhang, Yuwei; Zhang, Caiyun; Mo, Yirong; Cao, Zexing
- Abstract
Designing and synthesizing a stable compound with a planar tetracoordinate silicon (ptSi) center is a challenging goal for chemists. Here, a series of potential aromatic ptSi compounds composed of four conjugated rings shared by a centrally embedded Si atom are theoretically designed and computationally verified. Both Born–Oppenheimer molecular dynamics (BOMD) simulations and potential energy surface scannings verify the high stability and likely existence of these compounds, particularly Si‐16‐5555 (SiN4C8H8) with 16 π electrons, under standard ambient temperature and pressure. Notably, the Hückel aromaticity rule, which works well for single rings, is inconsistent with the high stability of Si‐16‐5555 where the 16 p electrons are spread over four five‐membered rings fused together. Bonding analyses show that the strong electron donation from the peripheral 12‐membered conjugated ring with 16 π electrons to the vacant central atomic orbital Si 3pz leads to the stabilization for both the ptSi coordination and planar aromaticity. The partial occupation of Si 3pz results in the peculiar carbenoid‐type behaviors for the amphoteric center. By modulating the electron density on the ring with substituent groups, we can regulate the nucleophilic and electrophilic properties of the central Si.
- Subjects
POTENTIAL energy surfaces; ELECTRON density; ATOMIC orbitals; SILICON; CHEMISTS
- Publication
Chemistry - A European Journal, 2021, Vol 27, Issue 4, p1402
- ISSN
0947-6539
- Publication type
Article
- DOI
10.1002/chem.202004298