145803-18-5Relevant academic research and scientific papers
Organocerium additions to proline-derived hydrazones: Synthesis of enantiomerically enriched amines
Denmark, Scott E.,Edwards, James P.,Weber, Theodor,Piotrowski, David W.
experimental part, p. 1278 - 1302 (2010/11/02)
The addition of organocerium reagents (from both organolithium and organomagnesium precursors) to chiral aldehyde hydrazones prepared from 1-aminoproline derivatives has been studied. The additions proceed in good yield and high diastereoselectivity and with good nucleophile (Me, n-Bu, i-Pr, t-Bu, Ph, etc.) and substrate scope (alkyl, alkenyl and aryl). The resulting hydrazines can be converted to amines by N-N bond cleavage through hydrogenolysis (Raney nickel) or by acylation and cleavage with Li/NH 3. The influence of the side chain on the diastereoselectivity was investigated through variation of the substituents to include more coordinating atoms (oxygen and nitrogen) as well as the removal of coordinating atoms. The SAMEMP auxiliary bearing a 2-methoxyethoxymethyl group gave the highest diastereoselectivities. Remarkably, auxiliaries bearing simple methyl and isobutyl substituents gave high selectivities as well. Hypotheses for the origin of the selectivity are presented.
Organocerium Additions to Hydrazones: Effects of Reagent Stoichiometry on Efficiency and Selectivity
Denmark, Scott E.,Edwards, James P.,Nicaise, Olivier
, p. 569 - 578 (2007/10/02)
The effects of reagent stoichiometry on the efficiency and selectivity of organocerium additions to chiral and achiral hydrazones have been investigated.The reagent formed in-situ from 1 equiv of CH3Li and 0.33 equiv of CeCl3 adds efficiently (>65percent
