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Quinine-derived thiourea catalyst

Wang and coworkers found that the quinine-derived thiourea catalyst 81b (1 mol%) was also highly reactive and enantioselective for the tandem thio-Michael-aldol reaction of various 2-mercaptobenzaldehydes (103) with a,P-unsaturated oxazolidi-nones (104), furnishing benzothiopyranes (105) with three stereogenic centers in... [Pg.270]

Michael addition of a-substituted a-nitroallylphosphonates (293) to various nitroolefins (299) have been shown to produce o,y-diaminophos-phonic esters (300) in the presence of a quinine-derived thiourea catalyst (298), with high diastereo- and enantioselectivity (Scheme 100). ... [Pg.295]

The quinine derived thiourea 12 was found to be the most efficient catalyst, in terms of conversion and enantioselectivity, in the Michael-Michael cascade process between tra y-3-(2-mercaptoaryl)-2-propenoic acid esters and /ra 5-nitroalkenes [39]. The thiochromanes, containing three new stereocenters, were obtained with excellent enantio- and diastereoselectivity irrespective of the electronic namre and substitution pattern of the aromatic ring in the nitroalkene and in the thiol. Although the first sulfa-Michael step of the process was poorly enantioselective, it was also reversible, so that the enantiomeric mixture of the adducts underwent an efficient dynamic kinetic resolution due to a retro-Michael-Michael-Michael sequence (Scheme 14.10). [Pg.502]

C9-epi-122 98% conv. (99% ee) after 30h, respectively (Figure 6.40). This structure-efficiency relationship supported the results already published by the Soos group for quinine- and quinidine-derived thioureas (Figure 6.39) [278]. C9-epimeric catalysts were found to be remarkably more efficient in terms of rate acceleration and stereoinduction than the analogs of natural cinchona alkaloid stereochemistry. This trend was also observed for the corresponding (thio)ureas derived from DHQD as shown by the experimental results in Figure 6.40 [279]. [Pg.264]

Quite recently, we also observed that quinine-based thiourea derivatives showed dramatic concentration and temperature effects on the enantioselectivity in the alcoholytic desymmetrization ofmeso-cyclic anhydrides, which can also be attributed to the self-association of the catalyst [23]. Of course, the possibility that the variation in... [Pg.7]

In addition to chiral PTCs, cinchona-based thioureas have also been proved to serve as catalysts for nitro-Mannich reactions. In 2006, Ricci and coworkers first reported that the quinine-based thiourea 40 (20mol%) can catalyze the aza-Henry reaction between nitromethane and the N-protected imines 93 derived from aromatic aldehydes [40]. N-Boc-, N-Cbz-, and N-Fmoc protected imines gave the best results in terms of the chemical yields and enantioselectivities (up to 94% ee at —40°C) (Scheme 8.30). [Pg.217]

The next progress in this field was obtained by the introduction of urea and thiourea types of catalysts (see Chapter 19), and especially quinine-derived sulfonamides (Figure 15.2). In addition to the excellent enantioselectivity, the efficacy of these catalysts is not temperature dependent (usually they are used at room temperature). Moreover, sulfonamide catalysts do not incline towards self-aggregation and therefore can be used under more concentrated conditions i.e. less solvent ). [Pg.55]

The Soos group, in 2005, prepared the first thiourea derivatives from the cinchona alkaloids quinine QN (8S, 9R-121), dihydroquinidine DHQD (8S, 9S-122), C9-epi-QN (8S, 9P-123), and quinidine QD (SR, 9R-124) via an experimentally simple one-step protocol with epimerization at the C9-position of the alkaloid starting material (Figure 6.39) [278]. The catalytic efficiency of these new thiourea derivatives and also of unmodified QN and C9-epi-QN was evaluated in the enan-tioselective Michael addition [149-152] of nitromethane to the simple model chal-cone 1,3-diphenyl-propenone resulting in adduct 1 in Scheme 6.119. After 99h reaction time at 25 °C in toluene and at 10 mol% catalyst loading QN turned out to be a poor catalyst (4% yield/42% ee (S)-adduct) and C9-epi-QN even failed to accelerate the screening reaction. In contrast, the C9-modified cinchona alkaloid... [Pg.261]

Lattanzi et al. expanded the substrate scope to the less-reactive (3-keto-amides. Unmodified quinine and dihydroquinine were slightly more efficient than several other p-aminoalcohol catalysts, including quaternised alkaloid and thiourea derivatives (Scheme 15.23). ° However, acyclic p-ketoamides did not afford products under the same conditions. [Pg.61]

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