104367-54-6Relevant articles and documents
Sulfone–Metal Exchange and Alkylation of Sulfonylnitriles
Yang, Xun,Nath, Dinesh,Gau, Michael R.,Steward, Omar W.,Fleming, Fraser F.
supporting information, p. 7257 - 7260 (2017/06/13)
The first general sulfone–metal exchange is described. Treating substituted 2-pyridylsulfonylacetonitriles with either BuLi or Bu3MgLi generates metalated nitriles that efficiently intercept a variety of electrophiles to afford quaternary nitriles. The 2-pyridylsulfone is critical for the sulfone–metal exchange because chelation anchors the organometallic proximal to the electrophilic, tetrasubstituted sulfone to override complex-induced deprotonation. Alkylating commercial 2-pyridinesulfonylacetonitrile with mild bases, either K2CO3 or DBU, and subsequent sulfone–metal exchange and alkylation rapidly assembles quaternary nitriles by three alkylations, only one of which requires an organometallic reagent.
Arylthio-metal exchange of α-arylthioalkanenitriles
Nath, Dinesh,Skilbeck, Melanie C.,Coldham, Iain,Fleming, Fraser F.
, p. 62 - 65 (2014/01/23)
The addition of BuLi, Bu3MgLi, Et2ZnBuLi, or Me 2CuLi to α-arylthioalkanenitriles triggers an arylthio-metal exchange. NMR spectroscopic analyses implicate organometallic attack on sulfur forming a three-coordinate sulfidate as the key intermediate. Electrophilic trapping affords tertiary and quaternary nitriles in high yield. The method addresses the challenge of improving the functional group tolerance and preventing polyalkylations.
TEMPO-mediated aliphatic C-H Oxidation with Oximes and hydrazones
Zhu, Xu,Wang, Yi-Feng,Ren, Wei,Zhang, Feng-Lian,Chiba, Shunsuke
supporting information, p. 3214 - 3217 (2013/07/26)
A method for aliphatic C-H bond oxidation of oximes and hydrazones mediated by 2,2,6,6-tetramethylpiperidin-1-oxyl (TEMPO) has been developed, which enables the concise assembly of substituted isoxazole and pyrazole skeletons.
