Imines comparison with

Another SBU with open metal sites is the tri-p-oxo carboxylate cluster (see Section 4.2.2 and Figure 4.2). The tri-p-oxo Fe " clusters in MIL-100 are able to catalyze Friedel-Crafts benzylation reactions [44]. The tri-p-oxo Cr " clusters of MIL-101 are active for the cyanosilylation of benzaldehyde. This reaction is a popular test reaction in the MOF Hterature as a probe for catalytic activity an example has already been given above for [Cu3(BTC)2] [15]. In fact, the very first demonstration of the catalytic potential of MOFs had aheady been given in 1994 for a two-dimensional Cd bipyridine lattice that catalyzes the cyanosilylation of aldehydes [56]. A continuation of this work in 2004 for reactions with imines showed that the hydrophobic surroundings of the framework enhance the reaction in comparison with homogeneous Cd(pyridine) complexes [57]. The activity of MIL-lOl(Cr) is much higher than that of the Cd lattices, but in subsequent reaction rans the activity decreases [58]. A MOF with two different types of open Mn sites with pores of 7 and 10 A catalyzes the cyanosilylation of aromatic aldehydes and ketones with a remarkable reactant shape selectivity. This MOF also catalyzes the more demanding Mukaiyama-aldol reaction [59]. 

Only a few examples of the [3 + 2] cycloaddition of thiocarbonyl ylides with C=N compounds have been reported so far. By comparison with aldehydes, imines are poor dipolarophiles. For example, Al-benzylidene methylamine and adamanta-nethione (5)-methylide (52) produce 1,3-thiazolidine (129) in only 13% yield (163). An alternative and efficient approach to 1,3-thiazohdines involves the [3 + 2] cycloaddition of azomethine ylides with thiocarbonyl compounds [cf. (169)]. 

The reduction of imines can be performed with zinc powder in 5% aq. NaOH solution without any organic solvents under mild conditions (Tsukinoki et al., 1998). In comparison with other conventional methods, some advantages of this method are the fact that, since the reaction can be done in water at room temperature under atmospheric pressure, it is safe, and that hydrogen gas is not necessary because the proton source is water. Furthermore, Zn powder is cheap compared with metal hydrides, hydrogenation catalyst, and lanthanides, and is not sensitive to oxygen and water. 

Were we to relax our restriction to consider solely hydrocarbyl substituents and accept both benzenoid and non-benzenoid aromatic imines, we would find other relevant compounds. For example, there is ALf-butyl-p-nitrobenzaldi mi ne with a gas-phase enthalpy of formation of 49.4 3.6 kJmol-1 from W. E. Acree, Jr., J. J. Kirchner, S. A. Tucker, G. Pilcher and M. D. M. C. R. Ribeiro da Silva, J. Chem. Thermodyn., 21, 443 (1989) and A-methyl-7-(methylamino)-troponimine (misnamed in our principal archive, Reference 16) with a gas-phase enthalpy of formation of 211.2 4.2 kJmol-1. Another relevant species is ammonium murexide with its 100-year-old enthalpy of formation of — 1212 kJ mol-1 as chronicled by Domalski. These three compounds are interesting, but it is precisely the non-hydrocarbyl part of these species that confounds simple comparison with other interesting species in this chapter. 

Heating imines derived from 3-amino-l,4-benzodiazepin-2-ones with iV-methylmaleimide in boiling toluene provided adducts derived from the stereospecific cycloaddition of the resonance-stabilized azo-methine ylide 45, formed by a 1,2-prototropic rearrangement, in 82-89% yield (Scheme 16) <1996T13455>. The relative stereochemistry was established by analysis of H NMR NOE data and comparison with the single crystal X-ray structure of an analogous compound. 

Quaternization (see Section 6.09.5.3) significantly increases the stability of the 1,2,3,4-thiatriazole ring. Moreover, many mesoionic and imine derivatives are quite stable in comparison with the parent compounds. 

The typical behavior of enamines has been mainly observed for compounds possessing a tertiary nitrogen atom.1 The analogous derivatives with a secondary amino group (the a,j8-unsaturated secondary amines) could, in principle, possess either the imino or the tautomeric enamine structure, but the first possibility is preferred practically without exception. In the text, some examples of their properties are quoted for the sake of comparison with those of tertiary enamines on these occasions, the group designation imines is used. Nucleophilic reactions of a limited number of aromatic heterocyclic systems are also included when they are similar to the reactions of enamines and illustrate the specific character of the enamine grouping. 

The original assignment of the absolute configuration (3S) for products 12 based on a comparison of the optical rotation value with a reported one for the phenyl derivative [27] must be considered uncertain. It would contradict the preferred attack of the nucleophile from the unshielded back side and the stereoselectivity observed in the reaction of A -galactosyl imines 7 with prochiral bis-silyl ketene acetals [28]. N-Galactosyl P-amino acids 13 are produced from bis-silylketene acetals in high yields and excellent diastereoselectivity (Scheme 10). The configuration at the P-position is R. 

The gas phase acid-catalyzed synthesis of pyridines from formaldehyde, ammonia and an alkanal is a complex reaction sequence, comprising at least two aldol condensations, an imine formation, a cyclization and a dehydrogenation (9). With acetaldehyde as the alkanal, a mixture of pyridine and picolines (methylpyridines) is formed. In comparison with amorphous catalysts, zeolites display superior performance, particularly those with MFI or BEA topology. Because formation of higher alkylpyridines is impeded in the shape-selective environment, the lifetime of zeolites is much improved in comparison with that of amorphous materials. Moreover, the catalytic performance can be enhanced by doping the structure with metals such as Pb, Co or Tl, which assist in the dehydrogenation. 

The heterocyclic hemi-aminal 44 was formed as a model for the synthesis of the marine alkaloids zoanthamine and zoanthenol and is derived from the cyclic imine formed by the reduction of an appropriated substituted azide <07H(72)213>. A pyrrolidine-fused azepine has been isolated from the venom of the ant Myrmicaria melanogaster and assigned as 45 based upon GC and FT-IR comparison with synthetic material <07JNP160>. The axially chiral doubly bridged biphenyl azepine 46 has been synthesised and used with oxone as an epoxidation catalyst in a biphasic system <070BC501>. 

Norbomene adds to photolytically produced ethoxycarbonylnitrene specifically at the exo face the same aziridine is produced in the thermal addition of ethoxycarbonyl azide, but via the triazoline rather than the nitrene, with much imine by-product. There can be problems of selectivity and rearrangements when one reacts ethoxycarbonylnitrene with more complex substrates, e.g. alkenic steroids. Ethoxycarbonylnitrene via a-elimination) adds to vinyl chlorides to give 2-chloroaziridines, which can be rearranged thermally to yield 2-chloroallyl carbamates. This nitrene also adds to enamines, giving an array of rearranged products. A modem discussion of the reactivities of ethoxycarbonylnitrene (electrophilic) in comparison with phthalimidonitrene (nucleophilic) towards alkenes of different electronic properties has tqipeared. ... 

The methods of preparation and purification of metal derivatives of 1,3-diketones have been described in a previous volume. Because of the interest in the structure " and reactions of metal derivatives of /3-keto imines, RC0CH2C(=NR )R", it is desirable to consider the methods of preparation of these compounds. Inasmuch as /3-keto imines are closely related to 1,3-diketones and to salicylaldimines, o-HOC6H4CH==NR, the methods of preparation show similarities. Although this review is concerned principally with /3-keto imines, some comparisons with 1,3-diketones and salicylaldimines are made. 

Adsorption of 19a on CdS was measured from methanolic solution. As observed for the adsorption of 2,5-DHF, the adsorption isotherm indicates the presence of mono- and multilayer adsorption. From the former a maximum surface concentration eq(max) of 20 X 10 mol g Can be estimated. At higher concentrations a linear correlation seems to be present. A similar behavior was observed also for the adsorption of chlorophenols on Ti02 [46]. Application of the Fliemenz model on the methanol-imine surface monolayer leads to an adsorption constant of 4400 + 950 and a <7° value of 4000 A. This is far too large, as indicated by comparison with 50 (14 x 3.5 A) estimated for a flat unsolvated molecule. This... 

Table3. MEA imine hydrogenation with Ir-ferrocenyldiphoshine complexes Comparison of catalyst performances of (a) homogeneous catalysts, (b) immobilized on silica gel, and (c) for reductive alkylation in a two-phase system (formulas see Fig. 7)...

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