Collection of Czechoslovak Chemical Communications - digital archive 

Abstract

A solution of nido-5,6-C₂B₈H₁₂ reacted in the presence of Et₃N with sulfur to yield the first mixed triheteroborane based on the [arachno-B₁₀H₁₄]^2- framework (C_2v symmetry), i.e. arachno-5,6,9-C₂SB₇H₁₁. This compound is isoelectrolobal with known arachno-5,6,9-C₃B₇H₁₃. The structures of these two ten-vertex arachno triheteroboranes have been established by the ab initio/IGLO (and GIAO-SCF)/NMR method. The presence of three heteroatoms and the absence of the hydrogen atom bridging the 5 and 10 atoms are responsible for a symmetry reduction from C_2v to C₁ in both compounds. The carbon atoms are compressed toward the center and the sulfur atom is pushed away from the center of the respective cluster relative to the positions they would have in [arachno-B₁₀H₁₄]^2-. These distortions from the parent compound are well described by the MP2/6-31* geometrical parameters. A good fit between the computed and measured ¹¹B chemical shifts revealed that the MP2/6-31G* internal coordinates are good representations of the molecular geometries of these two ten-vertex arachno heteroboranes.

Keywords: Boranes; Carboranes; Thiaboranes; Thiacarboranes; Heteroboranes; Ab initio calculations; NMR spectroscopy; Structure elucidation.

References: 45 live references.