CHIRAL ORGANOLANTHANIDES DESIGNED FOR ASYMMETRIC CATALYSIS - SYNTHESIS, CHARACTERIZATION, AND CONFIGURATIONAL INTERCONVERSIONS OF CHIRAL, C-1-SYMMETRICAL ORGANOLANTHANIDE HALIDES, AMIDES, AND HYDROCARBYLS

被引:198
作者
GIARDELLO, MA
CONTICELLO, VP
BRARD, L
SABAT, M
RHEINGOLD, AL
STERN, CL
MARKS, TJ
机构
[1] NORTHWESTERN UNIV, DEPT CHEM, EVANSTON, IL 60208 USA
[2] UNIV DELAWARE, DEPT CHEM, NEWARK, DE 19716 USA
关键词
D O I
10.1021/ja00101a047
中图分类号
O6 [化学];
学科分类号
0703 ;
摘要
This contribution describes the synthesis, structural systematics, absolute configurations, and structural interconversions of a series of C-1-symmetric lanthanide chloro, hydrocarbyl, and amide complexes/precatalysts based on chiral chelating Me(2)Si(eta(5)-Me(4)C(5)) (eta(5)-C(5)H(3)R*)(2-) ligands [Me(2)SiCp''(R*Cp)](2-), where R* = (+)-neomenthyl, (-)-menthyl, and (-)-phenylmenthyl. The ligands are prepared in three steps from known chiral cyclopentadienes. Metalation of the chiral dienes followed by condensation with Me(4)C(5)Si(CH3)(2)Cl and in situ lithiation provides the dianions in nearly quantitative yield. Transmetalation of the lithiated ligands with anhydrous lanthanide trichlorides followed by ambient temperature ether workup provides Me(2)SiCp''(R*Cp)LnCl(2)Li(OEt(2))(2) complexes in high yield. For (R)-Me(2)SiCp'' [(+)-neomenthylCp]Lu(mu-Cl)(2)Li(OEt(2))(2): space group P2(1)2(1)2(1); a = 12.240(2), b = 12.876(2), and c = 24.387(5) Angstrom, (24 degrees C); Z = 4; R(F) = 0.0509. As established by NMR and circular dichroism, the diastereomerically pure chloro complexes can be epimerized in appropriate donor solvents to afford mixtures of (R)- and (S)-configurational isomers with the isomer ratio dependent on solvent, R*, and lanthanide ion. Selective epimerization allows enrichment in either antipode with diastereomerically pure complexes obtained in a single recrystallization. Li+ sequestering crown ethers inhibit epimerization. The temperature dependence of the (R) reversible arrow (S) equilibrium constant in THF yields Delta H = 1.7 +/- 0.3 kcal/mol and Delta S 3.6 +/- 0.8 eu for Me(2)SiCp''[(+)-neomenthylCp)Lu(mu-Cl)(2)Li(OEt(2))(2) and Delta H = 4.8 +/- 0.5 kcal/mol and Delta S = 13.4 +/- 0.5 eu for Me(2)SiCp''[(-)-menthylCp]Sm(mu-Cl)(2)Li(OEt(2))(2). The mechanism is proposed to involve reversible ring detachment to an intermediate LiCpR* complex. Alkylation or amidation with ME(SiMe(3))(2) (M = Li or K, E = CH; M = Na or K, E = N) yields the corresponding chiral hydrocarbyls and amides in high yield. For (R/S)-Me(2)SiCp''[(+)-neomenthylCp]YCH(SiMe(3))(2): space group P2(1); a 19.178(4), b = 8.736(1), and c = 21.391(5) Angstrom; beta = 97.62(;); Z = 4; R(F) = 0.071. For (R)-Me(2)SiCp''[(-)-menthylCp]SmCH(SiMe(3))(2) space group P1; a = 8.993(3), b = 12.738(2), and c 16.549(4) Angstrom; alpha = 86.04(2)degrees; beta = 82.81(2)degrees, gamma = 72.91(2)degrees; Z = 2; R(F) = 0.026. For (R)-Me(2)SiCp''[(-)-menthylCp]YCH(SiMe(3))(2); space group P2(1); a = 12.319(3), b = 15.707(4), and c = 18.693(5) Angstrom; beta 91.59)(2)degrees; Z = 4; R(F) = 0.054. For (S)-Me(2)SiCp''[(+)-neomenthylCp]SmN(SiMe(3))(2): space group P2(1); a = 9.122(2), b = 10.112(3), and c = 18.478(3) Angstrom; beta = 90.58(2)degrees; Z = 2; R(F) = 0.029, For (S)-Me(2)SiCp''[(-)-menthylCp]SmN(SiMe(3))(2): space group P2(1)2(1)2(1); a = 10.217(3), b = 19.103(6), and c = 19.456(7) Angstrom; Z = 4; R(F) = 0.044. For (R)-Me(2)SiCp''[(-)-menthylCp]YN(SiMe(3))(2); space group P1; a = 8.937(3), b = 12,397(6), and c = 16.673(7) Angstrom; alpha = 85.53(2)degrees, beta = 82.17(2)degrees, gamma = 74.78(2)degrees Z = 2; R(F) = 0.065. The preferred planar chiral configurations of these complexes can be largely understood on the basis of significant, crystallographically identifiable, nonbonded interactions between R* and the remainder of the molecule. The hydrocarbyl and amide complexes are configurationally stable in toluene at 60 degrees C for many hours but undergo facile epimerization in the presence of primary alkyl amines, presumably via reversible Cp protonation/detachment. The hydrocarbyl complexes undergo rapid hydrogenolysis at ambient temperature, with retention of configuration, to yield the corresponding hydrides.
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页码:10212 / 10240
页数:29
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