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Ligands, chiral, immobilization

Compared to CMP, the mechanism of separation on a chiral stationary phase is easier to predict, due to a much simpler system. Because the ligand is immobilized to a matrix and is not constantly pumped through the system, the detection limits for the enantiomers are much lower. Depending on the ligand immobilized to the matrix, one can have different types of interactions between the selectand and selector metal complexes, hydrogen-bonding, inclusion, tt-tt interactions, and dipole interactions, as well as a combination thereof. [Pg.373]

A milestone in the use of this technique was the introduction of the N-(3,5-dinitrobenzoyl)amino acids as chiral immobilized CT-acceptor ligands. In particular, Pirkle et al. [43,44] prepared CSPs by covalently binding the chiral selector to a silica gel support and used them for the separation of several optical isomers by column chromatography. [Pg.141]

In recent years the solid-phase hydrosilylation reaction was successfully employed for synthesis of hydrolytically stable surface chemical compounds with Si-C bonds. Of special interest is application of this method for attachment of functional olefins, in particular of acrolein and some chiral ligands. Such matrices can be used for subsequent immobilization of a wide range of amine-containing organic reagents and in chiral chromatography. [Pg.248]

Glos and Reiser [23] introduced aza-bis(oxazolines) as new chiral ligands for copper and palladium catalysts. Because of the structural flexibility of these compounds they also prepared an immobilized ligand by covalent grafting to methoxypoly(ethyleneglycol) (structures 14 and 15 in Scheme 9). [Pg.100]

Non-covalently Immobilized Catalysts Based on Chiral Salen Ligands. . 152... [Pg.149]

In the last 20 years a great deal of effort has been focused towards the immobilization of chiral catalysts [2] and disparate results have been obtained. In order to ensure the retention of the valuable chiral hgand, the most commonly used immobihzation method has been the creation of a covalent bond between the ligand and the support, which is usually a solid, hi many cases this strategy requires additional functionalization of the chiral hgand, and this change - together with the presence of the very bulky support - may produce unpredictable effects on the conformational preferences of the catalytic complex. This in turn affects the transition-state structures and thus the enantioselectivity of the process. [Pg.150]

As outlined above, immobilization in a fluorinated liquid phase demands the functionahzation of the ligand with perfluoroalkyl chains and, even then, the solubihty is strongly influenced by the nature of the complex. Ionic hquids of the alkylmethyhmidazolium type (Fig. 4) have been recently developed as alternative solvents for organometallic catalysis and have the practical advantage of using directly the commercially available chiral hgands and complexes. [Pg.157]

Fig. 8 Symmetrical chiral salen ligands used in solid phase immobilization... Fig. 8 Symmetrical chiral salen ligands used in solid phase immobilization...
The mesoporous character of MCM-41 overcomes the size limitations imposed by the use of zeolites and it is possible to prepare the complex by refluxing the chiral ligand in the presence of Mn +-exchanged Al-MCM-41 [34-36]. However, this method only gives 10% of Mn in the form of the complex, as shown by elemental analysis, and good results are only possible due to the very low catalytic activity of the uncomplexed Mn sites. The immobihzed catalyst was used in the epoxidation of (Z)-stilbene with iodosylbenzene and this led to a mixture of cis (meso) and trans (chiral) epoxides. Enantioselectivity in the trans epoxides was up to 70%, which is close to the value obtained in solution (78% ee). However, this value was much lower when (E)-stilbene was used (25% ee). As occurred with other immobilized catalysts, reuse of the catalyst led to a significant loss in activity and, to a greater extent, in enantioselectivity. [Pg.165]

Fig. 18 Chiral iminobis(oxazoline) ligands used for immobilization... Fig. 18 Chiral iminobis(oxazoline) ligands used for immobilization...
The low-temperature method was then applied to the resolution of ( )-2-hydroxy-2-(pentafluorophenyl)acetonitrile (7) (Fig. which is usahle for the syntheses of a variety of ethane diols, amino alcohols containing CgFj groups as novel chiral ligands. After screening lipases such as Amano PS and AK, lipase LIP Pseudomonas aeruginosa lipase immobilized on Hyflo Super-Cel, Toyobo,... [Pg.30]

See other pages where Ligands, chiral, immobilization is mentioned: [Pg.1440]    [Pg.786]    [Pg.829]    [Pg.102]    [Pg.164]    [Pg.520]    [Pg.473]    [Pg.181]    [Pg.377]    [Pg.63]    [Pg.63]    [Pg.126]    [Pg.181]    [Pg.112]    [Pg.112]    [Pg.130]    [Pg.150]    [Pg.154]    [Pg.160]    [Pg.164]    [Pg.165]    [Pg.169]    [Pg.169]    [Pg.178]    [Pg.185]    [Pg.313]    [Pg.349]    [Pg.185]    [Pg.120]    [Pg.54]    [Pg.74]    [Pg.114]   
See also in sourсe #XX -- [ Pg.34 ]



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Chiral ligands

Ligand immobilized

Ligands chirality

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