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Transition metal recent developments

Gore ES (1991) In Hartley ER (ed) Chemistry of the platinum group metals recent developments. Elsevier, Amsterdam, pp 181-235 Griffith WP (1990) Transit Metal Chem 15 251-256 Griffith WP (1989) Platinum Metals Rev 33 181-185 Griffith WP, White AD (1986) Proc Indian Natl Sci Acad 52A 804-817... [Pg.114]

Two types of metal-catalyzed procedures are now available for these reactions. Extensive studies have been made with heterogeneous systems which utilize a wide range of Group VIII transition metals. Recently, homogeneous metal-catalyzed systems have also been discovered.58 In this section, heterogeneous metal-catalyzed exchange only will be discussed and current homogeneous developments will be treated in the final section of this chapter. [Pg.150]

More recent developments are based on the finding, that the d-orbitals of silicon, sulfur, phosphorus and certain transition metals may also stabilize a negative charge on a carbon atom. This is probably caused by a partial transfer of electron density from the carbanion into empty low-energy d-orbitals of the hetero atom ( backbonding ) or by the formation of ylides , in which a positively charged onium centre is adjacent to the carbanion and stabilization occurs by ylene formation. [Pg.6]

Apphcations of ultrasound to electrochemistry have also seen substantial recent progress. Beneficial effects of ultrasound on electroplating and on organic synthetic apphcations of organic electrochemistry (71) have been known for quite some time. More recent studies have focused on the underlying physical theory of enhanced mass transport near electrode surfaces (72,73). Another important appHcation for sonoelectrochemistry has been developed by J. Reisse and co-workers for the electroreductive synthesis of submicrometer powders of transition metals (74). [Pg.265]

A very significant recent development in the field of catalytic hydrogenation has been the discovery that certain transition metal coordination complexes catalyze the hydrogenation of olefinic and acetylenic bonds in homogeneous solution.Of these catalysts tris-(triphenylphosphine)-chloror-hodium (131) has been studied most extensively.The mechanism of the deuteration of olefins with this catalyst is indicated by the following scheme (131 -> 135) ... [Pg.184]

Perhaps the most exciting recent development in the chemistry of hydrogen is the discovery that, in transition metal polyhydrides, the molecule Hj can act as a dihapto ligand, (see below). [Pg.44]

The coordination chemistry of CO2 is by no means as extensive as that of CO (p. 926) but some exciting developments have recently been published. The first transition metal complexes with CO2 were claimed by... [Pg.312]

When a mixture of alkenes 1 and 2 or an unsymmetrically substituted alkene 3 is treated with an appropriate transition-metal catalyst, a mixture of products (including fi/Z-isomers) from apparent interchange of alkylidene moieties is obtained by a process called alkene metathesis. With the development of new catalysts in recent years, alkene metathesis has become a useful synthetic method. Special synthetic applications are, for example, ring-closing metathesis (RCM) and ring-opening metathesis polymerization (ROM) (see below). [Pg.10]

Because of the great importance of liquid-liquid biphasic catalysis for ionic liquids, all of Section 5.3 is dedicated to specific aspects relating to this mode of reaction, with special emphasis on practical, technical, and engineering needs. Finally, Section 5.4 summarizes a very interesting recent development for biphasic catalysis with ionic liquids, in the form of the use of ionic liquid/compressed CO2 biphasic mixtures in transition metal catalysis. [Pg.220]

As discussed in Section 7.3, conventional free radical polymerization is a widely used technique that is relatively easy to employ. However, it does have its limitations. It is often difficult to obtain predetermined polymer architectures with precise and narrow molecular weight distributions. Transition metal-mediated living radical polymerization is a recently developed method that has been developed to overcome these limitations [53, 54]. It permits the synthesis of polymers with varied architectures (for example, blocks, stars, and combs) and with predetermined end groups (e.g., rotaxanes, biomolecules, and dyes). [Pg.329]

In a catalytic asymmetric reaction, a small amount of an enantio-merically pure catalyst, either an enzyme or a synthetic, soluble transition metal complex, is used to produce large quantities of an optically active compound from a precursor that may be chiral or achiral. In recent years, synthetic chemists have developed numerous catalytic asymmetric reaction processes that transform prochiral substrates into chiral products with impressive margins of enantio-selectivity, feats that were once the exclusive domain of enzymes.56 These developments have had an enormous impact on academic and industrial organic synthesis. In the pharmaceutical industry, where there is a great emphasis on the production of enantiomeri-cally pure compounds, effective catalytic asymmetric reactions are particularly valuable because one molecule of an enantiomerically pure catalyst can, in principle, direct the stereoselective formation of millions of chiral product molecules. Such reactions are thus highly productive and economical, and, when applicable, they make the wasteful practice of racemate resolution obsolete. [Pg.344]

Some recent developments in the chemistry of transition metal oxo-cations. J. Selbin, Angew. Chem., Int. Ed. Engl., 1966,5,712-722 (184). [Pg.55]

Recent developments in transition metal nitrosyl chemistry. N. G. Connelly, Inorg. Chim. Acta. Rev., 1972, 6, 47-89 (395). [Pg.65]

Functionalized polyethylene would be of great industrial importance, and if synthetic methods to control the microstructure of functionalized polymers using transition-metal-based catalysis are developed, it would significantly broaden the utility and range of properties of this class of polymers. Recent progress in the field of late transition metal chemistry, such as Brookliart s use of nickel-based diimine catalysts, has enabled the copolymerization of ethylene with functional a-olefins.29 However, these systems incorporate functionalized olefins randomly and with limited quantity (mol percent) into the polymer backbone. [Pg.459]

The previous sections have described methods to obtain 2-pyridone scaffolds. Both in the construction of new materials and especially in drug design and development, there is a desire to be able to derivatize and optimize the lead structures. In the following sections, some recent developments using MAOS to effectively substitute and derivatize 2-pyridone heterocycles are described. The reaction types described range from electrophilic-, and nucleophilic reactions to transition metal-catalyzed transformations (Fig. 7). To get an overview of how these systems behave, their characteristics imder conventional heating is first described in brevity. [Pg.323]

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See also in sourсe #XX -- [ Pg.40 , Pg.221 , Pg.226 ]



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