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Catalysis hydride

In an analogous manner to lactam polymerization, a high-MW polyamide was obtained by Bliss and collaborators 76 in the ring-opening polymerization of propane sultam under phenoxide or Na hydride catalysis ... [Pg.898]

Grass, V., Lexa, D., Saveant, J.-M. (1997). Electrochemical generation of thodium porphyrin hydrides. Catalysis of hydrogen evolution, J. Am, Chem. Soc, 119 7526. [Pg.550]

By combining the utility of Cu hydride catalysis with the ability of C=N containing azaarenes to activate adjacent alkenes toward nucleophilic additions, the enantioselective reductive coupling of alkenyl azaarene 154 with ketone 155 has been developed by Lam (Scheme 11.34). This process is tolerant to a wide variety of azaarenes and ketones, and provides aromatic heterocycles 157 bearing tertiary-alcohol-containing side chains with high levels of diastereo- and enantioselection via a six-membered chair-like transition state 156 [53]. [Pg.442]

Chemical Hydride Catalysis System Amount of Catalyst (g) Hj Generation Rate (L min ) Hj Generation Rate per Amount of Catalysis (L min g ) Efficiency (%) Reference... [Pg.156]

It is important to mention that those conversions of the different fractions obtained from the vegetable oil biorefinery are not only performed by single chemical steps or via single biotechnological pathways but also a combination of them. Moreover, their simultaneous use in the same reaction vessel (hydride catalysis) is a challenging but promising area of research nowadays. [Pg.262]

Stereoselective and chemoselective semihydrogenation of the internal alkyne 208 to the ew-alkene 210 is achieved by the Pd-catalyzed reaction of some hydride sources. Tetramethyldihydrosiloxane (TMDHS) (209) i.s used in the presence of AcOH[116]. (EtO)3SiH in aqueous THF is also effective for the reduction of alkynes to di-alkenes[l 17], Semihydrogenation to the d.v-alkene 211 is possible also with triethylammonium formate with Pd on carbon[118]. Good yields and high cis selectivity are obtained by catalysis with Pd2fdba)3-Bu3P[119],... [Pg.497]

Acyl transfer from an acid an hydride to an alcohol is a standard method for the prep aration of esters The reaction IS subject to catalysis by either acids (H2SO4) or bases (pyri dine)... [Pg.847]

Positionalisomeri tion occurs most often duting partial hydrogenation of unsaturated fatty acids it also occurs ia strongly basic or acidic solution and by catalysis with metal hydrides or organometaUic carbonyl complexes. Concentrated sulfuric or 70% perchloric acid treatment of oleic acid at 85°C produces y-stearolactone from a series of double-bond isomerizations, hydration, and dehydration steps (57). [Pg.86]

Metals and alloys, the principal industrial metalhc catalysts, are found in periodic group TII, which are transition elements with almost-completed 3d, 4d, and 5d electronic orbits. According to theory, electrons from adsorbed molecules can fill the vacancies in the incomplete shells and thus make a chemical bond. What happens subsequently depends on the operating conditions. Platinum, palladium, and nickel form both hydrides and oxides they are effective in hydrogenation (vegetable oils) and oxidation (ammonia or sulfur dioxide). Alloys do not always have catalytic properties intermediate between those of the component metals, since the surface condition may be different from the bulk and catalysis is a function of the surface condition. Addition of some rhenium to Pt/AlgO permits the use of lower temperatures and slows the deactivation rate. The mechanism of catalysis by alloys is still controversial in many instances. [Pg.2094]

Figure 1.9 Examples of functionally important intrinsic metal atoms in proteins, (a) The di-iron center of the enzyme ribonucleotide reductase. Two iron atoms form a redox center that produces a free radical in a nearby tyrosine side chain. The iron atoms are bridged by a glutamic acid residue and a negatively charged oxygen atom called a p-oxo bridge. The coordination of the iron atoms is completed by histidine, aspartic acid, and glutamic acid side chains as well as water molecules, (b) The catalytically active zinc atom in the enzyme alcohol dehydrogenase. The zinc atom is coordinated to the protein by one histidine and two cysteine side chains. During catalysis zinc binds an alcohol molecule in a suitable position for hydride transfer to the coenzyme moiety, a nicotinamide, [(a) Adapted from P. Nordlund et al., Nature 345 593-598, 1990.)... Figure 1.9 Examples of functionally important intrinsic metal atoms in proteins, (a) The di-iron center of the enzyme ribonucleotide reductase. Two iron atoms form a redox center that produces a free radical in a nearby tyrosine side chain. The iron atoms are bridged by a glutamic acid residue and a negatively charged oxygen atom called a p-oxo bridge. The coordination of the iron atoms is completed by histidine, aspartic acid, and glutamic acid side chains as well as water molecules, (b) The catalytically active zinc atom in the enzyme alcohol dehydrogenase. The zinc atom is coordinated to the protein by one histidine and two cysteine side chains. During catalysis zinc binds an alcohol molecule in a suitable position for hydride transfer to the coenzyme moiety, a nicotinamide, [(a) Adapted from P. Nordlund et al., Nature 345 593-598, 1990.)...
As shown in Figure 16.10, this reaction mechanism involves nucleophilic attack by —SH on the substrate glyceraldehyde-3-P to form a covalent acylcysteine (or hemithioaeetal) intermediate. Hydride transfer to NAD generates a thioester intermediate. Nucleophilic attack by phosphate yields the desired mixed carboxylic-phosphoric anhydride product, 1,3-bisphosphoglycerate. Several examples of covalent catalysis will be discussed in detail in later chapters. [Pg.510]

In addition to its other properties, interest in the potential use of the vasodilative properties of prostaglandin El, alprostadil ( ), has led to several conceptually different syntheses.For this purpose, the classic Corey process has to be modified by reversing the order of addition of the side chains to allow for convenient removal of the unwanted double bond in the upper side chain. For example, Corey lactone is protected with dihydropyran (acid catalysis), reduced to the lactol with diisobutyaluminum hydride, and then subjected to the usual Wittig reaction to give intermediate This is... [Pg.2]

Rennard and Kokes (39) in their paper stated directly that their purpose was just to study the catalytic activity of palladium hydride in the hydrogenation of olefins, in this case ethylene and propylene. Kokes (39a) in his article recently published in Catalysis Reviews summarizes the results of studies on such catalytic systems. [Pg.265]

So far ignored, but perhaps the most important factor in catalysis by metals able to form hydrides, are the dynamical conditions of formation and decomposition of hydride phases. [Pg.287]

The mechanism of the poisoning effect of nickel or palladium (and other metal) hydrides may be explained, generally, in terms of the electronic theory of catalysis on transition metals. Hydrogen when forming a hydride phase fills the empty energy levels in the nickel or palladium (or alloys) d band with its Is electron. In consequence the initially d transition metal transforms into an s-p metal and loses its great ability to chemisorb and properly activate catalytically the reactants involved. [Pg.289]


See other pages where Catalysis hydride is mentioned: [Pg.74]    [Pg.169]    [Pg.74]    [Pg.169]    [Pg.89]    [Pg.487]    [Pg.608]    [Pg.10]    [Pg.237]    [Pg.164]    [Pg.170]    [Pg.310]    [Pg.497]    [Pg.67]    [Pg.494]    [Pg.83]    [Pg.174]    [Pg.262]    [Pg.28]    [Pg.229]    [Pg.268]    [Pg.80]    [Pg.151]    [Pg.156]    [Pg.183]   
See also in sourсe #XX -- [ Pg.371 ]

See also in sourсe #XX -- [ Pg.463 ]

See also in sourсe #XX -- [ Pg.5 , Pg.371 ]




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