2385-77-5Relevant articles and documents
Synthesis of Citronellal by RhI-Catalysed Asymmetric Isomerization of N,N-Diethyl-Substituted Geranyl- and Nerylamines or Geraniol and Nerol in the Presence of Chiral Diphosphino Ligands, under Homogeneous and Supported Conditions
Chapuis, Christian,Barthe, Michel,Laumer, Jean-Yves de Saint
, p. 230 - 242 (2001)
For the asymmetric isomerization of geranyl- or neryldiethylamine (( E)- or(Z)-1, resp.) and allyl alcohols geraniol or nerol ((E)- or (Z)-2, resp.) to citronellal (4) in the presence of a [RhI(ligand)cycloocta-1,5-diene)]- catalyst, the atropic ligands 5-11 are compared under homogeneous and polymer-supported conditions with the non-C2-symmetrical diphosphino ferrocene ligands 12-16. The tBu-josiphos ligand 13 or daniphos ligand 19, available in both antipodal series, already catalyse the reaction of (E)-1 at 20 deg (97 percent e.e.) and favourably compare with the binap ligand 5 (see Table 1). Silica-gel- or polymer-supported diphosphino ligands usually afford similar selectivity as compared to the corresponding ligands applied under homogeneous conditions, but are generally less reactive. In this context, a polymer-supported ligand of interest is the polymer-anchored binap (R)-6, in terms of reactivity, selectivity, and recoverability, with a turnover of more than 14400.
Asymmetric cleavage of chiral α,β-ethylenic acetals by organolithium reagents
Alexakis, Alexandre,Mhamdi, Farida,Lagasse, Franz,Mangeney, Pierre
, p. 3343 - 3346 (1996)
,β-Ethylenic chiral acetals react regio- and stereoselectively with organolithium reagents. The obtained enol ether may be hydrolyzed into a chiral β-disubstituted aldehyde.
Chemoselective γ-Oxidation of β,γ-Unsaturated Amides with TEMPO
Heindl, Sebastian,Lemmerer, Miran,Malzer, Nicolas,Matyasovsky, Ján,Maulide, Nuno,Riomet, Margaux
supporting information, p. 19123 - 19127 (2021/07/26)
A chemoselective and robust protocol for the γ-oxidation of β,γ-unsaturated amides is reported. In this method, electrophilic amide activation, in a rare application to unsaturated amides, enables a regioselective reaction with TEMPO resulting in the title products. Radical cyclisation reactions and oxidation of the synthesised products highlight the synthetic utility of the products obtained.
Chiral amorphous metal–organic polyhedra used as the stationary phase for high-resolution gas chromatography separations
Tang, Bo,Sun, Chenyu,Wang, Wei,Geng, Lina,Sun, Liquan,Luo, Aiqin
, p. 1178 - 1185 (2020/07/09)
Herein, we describe a new chiral amorphous metal–organic polyhedra used as the stationary phase for high-resolution gas chromatography (GC). The chiral stationary phase was coated onto a capillary column via a dynamic coating process and investigated for a variety of compounds. The experimental results showed that the chiral stationary phase exhibits good selectivity for linear alkanes, linear alcohols, polycyclic aromatic hydrocarbons, isomers, and chiral compounds. In addition, the column has the advantages of high column efficiency and short analysis time. The present work indicated that amorphous metal–organic polyhedra have great potential for application as a new type of stationary phase for GC.