叶立德
化学
磷化氢
碳负离子
电泳剂
氢胺化
阳离子聚合
药物化学
催化作用
试剂
组合化学
有机化学
作者
Jana‐Alina Zur,Michelle Schmidt,Kai‐Stephan Feichtner,Prakash Duari,Julian Löffler,Thorsten Scherpf,Viktoria H. Gessner
标识
DOI:10.1002/anie.202203950
摘要
Abstract Although ylides are commonly used reagents in organic synthesis, the parent methylphosphine MePH 2 only exists in its phosphine form in the condensed phase. Its ylide tautomer H 3 P + −CH 2 − is considerably higher in energy. Here, we report on the formation of bis(sulfonyl)methyl‐substituted phosphines of the type (RO 2 S) 2 C(H)−PR 2, which form stable PH ylides under ambient conditions, amongst the first examples of an acyclic phosphine which only exists in its PH ylide form. Depending on the exact substitution pattern the phosphines form an equilibrium between the PH ylide and the phosphine form or exist as one of both extremes. These phosphines were found to be ideal starting systems for the facile formation of α‐carbanionic phosphines. The carbanion‐functionalization leads to a switch from electron‐poor to highly electron‐rich phosphines with strong donor abilities and high basicities. Thus, the phosphines readily react with different electrophiles exclusively at the phosphorus atom and not at the carbanionic center. Furthermore, the anionic nature of the phosphines allows the formation of zwitterionic complexes as demonstrated by the isolation of a gold(I) complex with a cationic metal center. The cationic gold center allows for catalytic activity in the hydroamination of alkyne without requiring a further activation step.
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