Catalysts & Catalysed Reactions
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Displaying Records 1 - 10 of 200 |
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| 19254 | Recent advances in the Pd-catalyzed chemical transformations of Baylis–Hillman adducts |
| S. Gowrisankar; H. S. Lee; S. H. Kim; K. Y. Lee; J. N. Kim* |
| Tetrahedron, 2009, 65(43), 8769-8780 |
| A review, with 52 references, detailing recent advances in the palladium catalysed coupling of activated vinyl compounds with electrophiles |
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| 19253 | Asymmetric syntheses of oxindole and indole spriocyclic alkaloid natural products |
| B. M. Trost*; M. K. Brennan |
| Synthesis, 2009, (18), 3003-3025 |
| A review, with 92 references, highlighting advances in the asymmetric synthesis of spirocyclic indoline natural products, including several catalytic reactions, up to May 2009 |
| 19252 | Catalytic addition of simple alkenes to carbonyl compounds by use of group 10 metals |
| C.-Y. Ho*; K. D. Schleicher; C.-W. Chan; T. F. Jamison* |
| SYNLETT, 2009, (16), 2565-2582 |
| A review, with 60 references, of recent advances in the use of nickel complexes to activate unactivated monosubstituted olefins for catalytic intermolecular C–C bond-forming reactions with various carbonyl compounds |
| 19251 | The versatile alkylidene moiety in ruthenium olefin metathesis catalysts |
| C. E. Diesendruck; E. Tzur; N. G. Lemcoff* |
| Eur. J. Inorg. Chem., 2009, 2009(28), 4185-4203 |
| A review, with 128 references, of recent developments in alkylidene ligands used in ruthenium olefin metathesis, including a discussion of the effects of these ligands on the precatalyst properties |
| 19250 | Electrocatalytic recycling of CO2 and small organic molecules |
| J. Lee*; Y. Kwon; R. L. Machunda; H. J. Lee |
| Chem. Asian J., 2009, 4(10), 1516-1517 |
| A review, with 15 references, on recent progress and developments in using electrocatalysis to reduce CO2 emissions |
| 19249 | Toward efficient palladium-catalyzed allylic C–H alkylation |
| T. Jensen; P. Fristrup* |
| Chem. Eur. J., 2009, 15(38), 9632-9636 |
| A review, with 18 references, of recent work on the Pd(II) catalysed direct allylic C–H alkylation reaction |
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| 19248 | Chiral Pd aqua complex-catalyzed asymmetric C–C bond-forming reactions: a Bronsted acid–base cooperative system |
| M. Sodeoka*; Y. Hamashima |
| Chem. Commun., 2009, (39), 5787-5798 |
| A review, with 41 references, of novel asymmetric C–C bond-forming reactions catalysed by chiral cationic Pd aqua complexes as acid–base catalysts |
| 19247 | Selective catalytic hydrogenation of functionalized nitroalkenes: an update |
| H.-U. Blaser*; H. Steiner; M. Studer |
| ChemCatChem, 2009, 1(2), 210-221 |
| A review, with 63 references, detailing recent progress in the selective catalytic hydrogenation of nitroarenes with a particular view to high chemoselectivity in systems incorporating other easily reducible groups, such as carbon–carbon, –nitrogen, and –oxygen double and triple bonds |
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| 19246 | Biocatalytic routes to optically active amines |
| M. Hohne; U. T. Bornscheuer* |
| ChemCatChem, 2009, 1(1), 42-51 |
A review, with 77 references, summarising the biocatalytic synthesis of chiral amines, including the use of  -transaminases
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| 19245 | Palladium-catalyzed carbonylation reactions of alkenes and alkynes |
| A. Brennfuhrer; H. Neumann; M. Beller* |
| ChemCatChem, 2009, 1(1), 28-41 |
| A review, with 113 references, covering recent developments in the palladium catalysed nucleophilic carbonylation reactions of alkenes and alkynes |
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