Embedding a Planar Hypercoordinate Carbon Atom into a [4n+2] π-System

Osvaldo Yañez; Rodrigo Báez-Grez; Jorge Garza; Sudip Pan; Jorge Barroso; Alejandro Vásquez-Espinal; Gabriel Merino; William Tiznado

doi:10.1002/cphc.201900998

Embedding a Planar Hypercoordinate Carbon Atom into a [4n+2] π-System

Osvaldo Yañez, Rodrigo Báez-Grez, Jorge Garza, Sudip Pan, Jorge Barroso, Alejandro Vásquez-Espinal, Gabriel Merino, William Tiznado

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

24 Citas (Scopus)

Resumen

Through delicate tuning of the electronic structure, we report herein a rational design of seventeen new putative global minimum energy structures containing a planar tetra- or pentacoordinate carbon atom embedded in an aromatic hydrocarbon. These structures are the result of replacing three consecutive hydrogen atoms of an aromatic hydrocarbon by less electronegative groups, forming a multicenter σ-bond with the planar hypercoordinate carbon atom and participating in the π-electron delocalization. This strategy that maximizes both mechanical and electronic effects through aromatic architectures can be extended to several molecular combinations to achieve new and diverse compounds containing planar hypercoordinate carbon centers.

Idioma original	Inglés
Páginas (desde-hasta)	145-148
Número de páginas	4
Publicación	ChemPhysChem
Volumen	21
N.º	2
DOI	https://doi.org/10.1002/cphc.201900998
Estado	Publicada - 16 ene. 2020
Publicado de forma externa	Sí

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abstract = "Through delicate tuning of the electronic structure, we report herein a rational design of seventeen new putative global minimum energy structures containing a planar tetra- or pentacoordinate carbon atom embedded in an aromatic hydrocarbon. These structures are the result of replacing three consecutive hydrogen atoms of an aromatic hydrocarbon by less electronegative groups, forming a multicenter σ-bond with the planar hypercoordinate carbon atom and participating in the π-electron delocalization. This strategy that maximizes both mechanical and electronic effects through aromatic architectures can be extended to several molecular combinations to achieve new and diverse compounds containing planar hypercoordinate carbon centers.",

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AU - Yañez, Osvaldo

AU - Báez-Grez, Rodrigo

AU - Garza, Jorge

AU - Pan, Sudip

AU - Barroso, Jorge

AU - Vásquez-Espinal, Alejandro

AU - Merino, Gabriel

AU - Tiznado, William

PY - 2020/1/16

Y1 - 2020/1/16

N2 - Through delicate tuning of the electronic structure, we report herein a rational design of seventeen new putative global minimum energy structures containing a planar tetra- or pentacoordinate carbon atom embedded in an aromatic hydrocarbon. These structures are the result of replacing three consecutive hydrogen atoms of an aromatic hydrocarbon by less electronegative groups, forming a multicenter σ-bond with the planar hypercoordinate carbon atom and participating in the π-electron delocalization. This strategy that maximizes both mechanical and electronic effects through aromatic architectures can be extended to several molecular combinations to achieve new and diverse compounds containing planar hypercoordinate carbon centers.

AB - Through delicate tuning of the electronic structure, we report herein a rational design of seventeen new putative global minimum energy structures containing a planar tetra- or pentacoordinate carbon atom embedded in an aromatic hydrocarbon. These structures are the result of replacing three consecutive hydrogen atoms of an aromatic hydrocarbon by less electronegative groups, forming a multicenter σ-bond with the planar hypercoordinate carbon atom and participating in the π-electron delocalization. This strategy that maximizes both mechanical and electronic effects through aromatic architectures can be extended to several molecular combinations to achieve new and diverse compounds containing planar hypercoordinate carbon centers.

KW - Aromaticity

KW - bonding analysis

KW - induced magnetic field

KW - planar hypercoordinate carbon

KW - theoretical chemistry

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Embedding a Planar Hypercoordinate Carbon Atom into a [4n+2] π-System

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