Publications by authors named "Christoph Schnegelsberg"
Grignard reagents RMgCl and their so-called turbo variant, the highly reactive RMgCl⋅LiCl, are of exceptional synthetic utility. Nevertheless, it is still not fully understood which species these compounds form in solution and, in particular, in which way LiCl exerts its reactivity-enhancing effect. A combination of electrospray-ionization mass spectrometry, electrical conductivity measurements, NMR spectroscopy (including diffusion-ordered spectroscopy), and quantum chemical calculations is used to analyze solutions of RMgCl (R=Me, Et, Bu, Hex, Oct, Dec, iPr, tBu, Ph) in tetrahydrofuran and other ethereal solvents in the absence and presence of stoichiometric amounts of LiCl.
View Article and Find Full Text PDFArticle Synopsis
- The pivalates RZnOPiv⋅Mg(OPiv)X⋅n LiCl are organometallic reagents notable for their effectiveness in Negishi cross-coupling reactions and improved resistance to moisture compared to traditional compounds.* -
- Detailed studies, including X-ray crystallography and NMR analysis, reveal that these reagents exist as separate zinc and magnesium species in solution, which contributes to their stability.* -
- The presence of Mg(OPiv)2 is crucial for enhancing the air stability of aryl zinc species, while the role of LiCl in the mixture is elucidated through the molecular structure of specific zinc-lithium complexes.*