Thiourea derived catalysts

Fig. 5 Optimized structures (B3LYP/6-31G(d)) of the stationary points located for the proton transfer between the thiourea derived catalyst and the enol form of acetylacetone. Bond distances characteristic for hydrogen bonds are given in Angstrom, bonds broken or formed are shown in red...

The reaction was first tested with these substances as ligands but the organic molecule, in the absence of any added metal ion, proved to be the most enantioselective catalyst (library 1 19% ee vs. less than 13% ee for the best metal catalyst). The effects of selective variations of the amino acid nature and of the salicylidene moiety on the diamine structure were investigated for urea and thiourea derivatives via HTS (library 2 48 urea compounds and... 

New catalysts were prepared after optimisation of the Ugand structure. The most efficient organo catalyst for this reaction was an amido-thiourea derivative (Scheme 43). Interestingly, dissymmetrical ligands were more efficient and selective for this reaction. 

Chiral fe-thiourea-type catalysts effectively provide the Baylis Hillman reaction with cyclohexenone and aldehydes.181 In several reactions, thiourea derivatives have been used as significant and specific catalyst because of their intermolecular hydrogen bonding ability (Scheme 74).182 186... 

Since Curran and Kuo and Schreiner and coworkers reported that urea and thiourea derivatives act like Lewis acid catalysts, several chiral urea and thiourea catalysts have been designed by Jacobsen et al. and Takemoto et al. ... 

Modified Cinchona alkaloids catalysts have been developed in the last two decades to enhance further the bifunctional mode of the catalyst. Derivations at the C(9)-OH group, replacement of quinoline C(6 )-OCH3 with a hydroxyl group to enhance hydrogen bonding, syntheses of bis-Cinchona alkaloids, and development of thiourea-derived Cinchona alkaloids are most notable. 

Takemoto and co-workers designed a small hbrary of thiourea cyclohexane-diamine derived catalysts for the Michael reaction of malonates to nitrolefins [15]. The authors observed an interesting trend in catalysis the reaction only proceeded enantioselectively and in decent yields when the catalyst possessed both thiourea... 

The best reactivity and selectivity was illustrated with the binaphthol derived thiourea amine catalyst 277. The substrate scope was explored primarily with P-aryl-nitro-olefms of both electron-donating and electron-withdrawing natures. Yields and selectivities were high for the majority of substrates (Scheme 78). 

Figure 6.3 Stereoselective, chiral thiourea derivatives of achiral benchmark thiourea organocatalyst N,N -bis [3,5-(trifluoromethyl)phenyl]thiourea 9 stereoselective hydrogen-bonding thiourea organocatalysts incorporating the privileged 3,5-bis(trifluoromethylphenyl)thiourea moiety. The (thio)urea catalyst structure is the leitmotif for the chapter organization.

Wenzel and Jacobsen, in 2002, identified Schiff base thiourea derivative 48 as catalyst for the asymmetric Mannich addition [72] of tert-butyldimethylsilyl ketene acetals to N-Boc-protected (hetero)aromatic aldimines (Scheme 6.49) [201]. The optimized structure of 48 was found through the construction of a small, parallel... 

The Takemoto group synthesized a series ofdiaminocyclohexane-based thiourea derivatives (e.g., 12, 40, 57, and 58) for catalysis of the Michael addition [149-152] ofmalonates to trons-j3-nitrostyrenes (Figure 6.18) [129, 207]. In the model, Michael addition of diethyl malonate to trons-]3-nitrostyrene at room temperature and in toluene as the solvent tertiary amine-functionalized thiourea 12 (10mol% loading) was identified to be the most efficient catalyst in terms of catalytic activity (86%... 

Figure 6.27 Representative (R,R)-l,2-diaminocyclohexane-derived thiourea derivatives incorporating a phthalimide (Phthal) and tetraphenylphthalimide (TPhP) moiety catalyst screening was performed in the Michael addition of acetophenone-derived morpholine enamine to trans-()-nitrostyrene in toluene as the solvent.

Tsogoeva and co-workers explored the catalytic potential of pyridyl- and imida-zoyl-containing thiourea derivatives (e.g., thiourea 92 and 93) in the asymmetric model Strecker reactions [157] of N-benzyl- and benzhydryl-protected benzaldi-mine with HCN [258], The observed enantioselectivities were consistently very low (4—14% ee) for all catalyst candidates and were far below synthetically useful levels, while imidazoyl-thiourea 93 was reported to be highly active and displayed 100% conversion (at 7% ee) of the N-benzhydryl-protected benzaldimine (Scheme 6.99). X-ray structure analysis of a pyridyl-thiourea revealed an intramolecular hydrogen-bond between the basic ring nitrogen and one amide proton. This could make this... 

The Jacobsen group independently focussed on the development of primary amine-functionalized thiourea derivatives and published, in 2006, the thioureas 100-103 incorporating the established tert-leucine (amide) motif (Figure 6.14) and the diaminocyclohexane or diphenylethylenediamine chiral backbone, respectively (Figure 6.31) [262]. The catalyst screening was carried out in the asymmetric Michael addition [149-152] of 2-phenylpropionaldehyde, an a,a-disubstituted aldehyde, to 1-nitrohex-l-ene (at 20mol% loading, DCM, rt, variable equiv. of H2O)... 

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... 

Ricci and co-workers introduced a new class of amino- alcohol- based thiourea derivatives, which were easily accessible in a one-step coupling reaction in nearly quanitative yield from the commercially available chiral amino alcohols and 3,5-bis(trifluoromethyl)phenyl isothiocyanate or isocyanate, respectively (Figure 6.45) [307]. The screening of (thio)urea derivatives 137-140 in the enantioselective Friedel-Crafts reaction of indole with trans-P-nitrostyrene at 20 °C in toluene demonstrated (lR,2S)-cis-l-amino-2-indanol-derived thiourea 139 to be the most active catalyst regarding conversion (95% conv./60h) as well as stereoinduction (35% ee), while the canditates 137, 138, and the urea derivative 140 displayed a lower accelerating effect and poorer asymmetric induction (Figure 6.45). The uncatalyzed reference reaction performed under otherwise identical conditions showed 17% conversion in 65 h reaction time. 

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