Heterogeneous cinchona alkaloids

While ephedrine derivatives showed some selectivity, the most promising results were obtained with cinchona alkaloids. Lithium alkoxides and lithium acetylides (n-BuLi or LiHMDS used to deprotonate both the acetylene and the alcohol) gave better results than the corresponding sodium or magnesium salts. Higher enan-tioselectivity was obtained in THF (homogeneous) than in toluene or diethyl ether (heterogeneous). 

The enantioselective hydrogenation of prochiral substances bearing an activated group, such as an ester, an acid or an amide, is often an important step in the industrial synthesis of fine and pharmaceutical products. In addition to the hydrogenation of /5-ketoesters into optically pure products with Raney nickel modified by tartaric acid [117], the asymmetric reduction of a-ketoesters on heterogeneous platinum catalysts modified by cinchona alkaloids (cinchonidine and cinchonine) was reported for the first time by Orito and coworkers [118-121]. Asymmetric catalysis on solid surfaces remains a very important research area for a better mechanistic understanding of the interaction between the substrate, the modifier and the catalyst [122-125], although excellent results in terms of enantiomeric excesses (up to 97%) have been obtained in the reduction of ethyl pyruvate under optimum reaction conditions with these Pt/cinchona systems [126-128],... 

In order to evaluate the catalytic characteristics of colloidal platinum, a comparison of the efficiency of Pt nanoparticles in the quasi-homogeneous reaction shown in Equation 3.7, with that of supported colloids of the same charge and of a conventional heterogeneous platinum catalyst was performed. The quasi-homogeneous colloidal system surpassed the conventional catalyst in turnover frequency by a factor of 3 [157], Enantioselectivity of the reaction (Equation 3.7) in the presence of polyvinyl-pyrrolidone as stabilizer has been studied by Bradley et al. [158,159], who observed that the presence of HC1 in as-prepared cinchona alkaloids modified Pt sols had a marked effect on the rate and reproducibility [158], Removal of HC1 by dialysis improved the performance of the catalysts in both rate and reproducibility. These purified colloidal catalysts can serve as reliable... 

In fact, there are only two heterogeneous catalysts that reliably give high enantioselectivities (e.s. s) (90% e.e. or above). These are Raney nickel (or Ni/Si02) system modified with tartaric acid (TA) or alanine for hydrogenation of /(-kctocstcrs [12-30], and platinum-on-charcoal or platinum-on-alumina modified with cinchona alkaloids for the hydrogenation of a-ketoesters [31-73],... 

Several examples exist of the application of chiral natural N-compounds in base-catalyzed reactions. Thus, L-proline and cinchona alkaloids have been applied [35] in enantioselective aldol condensations and Michael addition. Techniques are available to heterogenize natural N-bases, such as ephedrine, by covalent binding to mesoporous ordered silica materials [36]. 

Enantioselective hydrogenation of a-ketoesters on cinchona alkaloid-modified Pt/Al203 is an interesting system in heterogeneous catalysis [143-146], The key feature is that on cinchonidine-modified platinum, ethyl pyruvate is selectively hydrogenated to R-ethyl lactate, whereas on einchonine-modified platinum, S-ethyl pyruvate is the dominant product (Figure 16) [143]. 

A solid-phase sulfur oxidation catalyst has been described in which the chiral ligand is structurally related to Schiff-base type compounds (see also below). A 72% ee was found using Ti(OPr-i)4, aqueous H2O2 and solid-supported hgand 91 . More recently, a heterogeneous catalytic system based on WO3, 30% H2O2 and cinchona alkaloids has been reported for the asymmetric oxidation of sulfides to sulfoxides and kinetic resolution of racemic sulfoxides. In this latter case 90% ee was obtained in the presence of 92 as chiral mediator. ... 

WO3-3O % H2O2-CINCHONA ALKALOIDS A NEW HETEROGENEOUS CATALYTIC SYSTEM FOR ASYMMETRIC OXIDATION OF SULFIDES AND KINETIC RESOLUTION... 

Chiral sulfoxides have emerged as versatile building blocks and chiral auxiliaries in the asymmetric synthesis of pharmaceutical products. The asymmetric oxidation of prochiral sulfides with chiral metal complexes has become one of the most effective routes to obtain these chiral sulfoxides.We have recently developed a new heterogeneous catalytic system (WO3-30% H2O2) which efficiently catalyzes both the asymmetric oxidation of a variety of thioethers (1) and the kinetic resolution of racemic sulfoxides (3), when used in the presence of cinchona alkaloids such as hydroquinidine 2,5-diphenyl-4,6-pyrimidinediyl diether [(DHQD)2-PYR], Optically active sulfoxides (2) are produced in high yields and with good enantioselectivities (Figure 9.3). ... 

Nandanan, E. Sudalai, A. Ravindranathan, T. New Polymer Supported Cinchona Alkaloids for Heterogeneous Catalytic Asymmetric Dihydroxyla-tion of Olefins, Tetrahedron Lett. 1997, 38, 2577. 

Enantioselective Hydrogenation of Activated Ketones Using Heterogeneous Pt Catalysts Modified with Cinchona Alkaloids... 

Petri, A., Pini, D. and Salvadori, P. Heterogeneous enantioselective dihydroxylation of aliphatic olefins - A comparison between different polymeric cinchona alkaloid derivatives, Tetrahedron Lett., 1995, 36, 1549-1552. 

Sutherland, Ibbotson, Moyes and Wells have published a detailed account of the heterogeneous enantioseleetive hydrogenation of methyl pyruvate (CH3COCOOCH3) to R-(+)-methyl lactate over Pt/siliea surfaces modified by sorbed cinchona alkaloids.16 Kinetic, isotherm and molecular modeling calculations were used to develop an idea of the role of the cinchonidine modifier. This system is quite unusual high enantioselectivity is achieved only with Pt, only in the presence of cinchonidine modifiers and only for the hydrogenation of a-ketoesters. 

To explore the possibility of recycling alkaloid-Os04 complexes, several polymer-bound alkaloid derivatives have been used for heterogeneous catalytic asymmetric dihydroxylations. As chiral ligands, polymerized cinchona alkaloids or copolymers of quinine derivatives with acrylonitrile or styrene were studied [46]. In general, lower select vities and decreased rates were observed. 

Heterogeneous enantioselective hydrogenation over Cinchona alkaloid modified platinum 04ACR909. 

The presence of the quinuclidine base functionality makes them effective ligands for a variety of metal-catalyzed processes (Chapters 2-4). The most representative example is the osmium-catalyzed asymmetric dihydroxylation of olefins [9]. The metal binding properties of the quinuclidine nitrogen also allow to use cinchona alkaloids as metal surface modifiers, for example, in the highly enantioselective heterogeneous asymmetric hydrogenation of a-keto esters (Chapter 2). Both... 

Heterogeneous Pt and Pd Catalysts Modified with Cinchona Alkaloids 15... 

As mentioned in Section 2.1, the use of cinchona alkaloids as modifiers of the classical heterogeneous hydrogenation catalyst platinum on a support was pioneered... 

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