Boron Rings Enclosing Planar Hypercoordinate Group 14 Elements

Sets of boron rings enclosing planar hypercoordinate group 14 elements (AB n ( n -8); A = group 14 element; n = 6−10) are designed systematically based on geometrical and electronic fit principles: the size of a boron ring must accommodate the central atom comfortably. The electronic structures of...

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Veröffentlicht in:	Journal of the American Chemical Society 2007-11, Vol.129 (47), p.14767-14774
Hauptverfasser:	Islas, Rafael, Heine, Thomas, Ito, Keigo, Schleyer, Paul v. R, Merino, Gabriel
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Sprache:	eng
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container_title	Journal of the American Chemical Society
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creator	Islas, Rafael Heine, Thomas Ito, Keigo Schleyer, Paul v. R Merino, Gabriel
description	Sets of boron rings enclosing planar hypercoordinate group 14 elements (AB n ( n -8); A = group 14 element; n = 6−10) are designed systematically based on geometrical and electronic fit principles: the size of a boron ring must accommodate the central atom comfortably. The electronic structures of the planar minima with hypercoordinate group 14 elements are doubly aromatic with six π and six in-plane radial MO systems (radial MOs are comprised of boron p orbitals pointing toward the ring center). This is confirmed by induced magnetic field and nucleus-independent chemical shift (NICS) computations. The weakness of the “partial” A−B bonds is compensated by their unusually large number. Although a C 7 v pyramidal SiB8 structure is more stable than the D 8 h isomer, Born−Oppenheimer molecular dynamics simulations show the resistance of the D 8 h local minimum against deformation and isomerization. Such evidence of the viability of the boron ring minima with group 14 elements encourages experimental realization.
doi_str_mv	10.1021/ja074956m
format	Article
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title	Boron Rings Enclosing Planar Hypercoordinate Group 14 Elements
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