- Site-Selective C?S Bond Formation at C?Br over C?OTf and C?Cl Enabled by an Air-Stable, Easily Recoverable, and Recyclable Palladium(I) Catalyst
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This report widens the repertoire of emerging PdI catalysis to carbon–heteroatom, that is, C?S bond formation. While Pd0-catalyzed protocols may suffer from the formation of poisonous sulfide-bound off-cycle intermediates and lack of selectivity, the mechanistically diverse PdI catalysis concept circumvents these challenges and allows for C?S bond formation (S–aryl and S–alkyl) of a wide range of aryl halides. Site-selective thiolations of C?Br sites in the presence of C?Cl and C?OTf were achieved in a general and a priori predictable fashion. Computational, spectroscopic, X-ray, and reactivity data support dinuclear PdI catalysis to be operative. Contrary to air-sensitive Pd0, the active PdI species was easily recovered in the open atmosphere and subjected to multiple rounds of recycling.
- Scattolin, Thomas,Senol, Erdem,Yin, Guoyin,Guo, Qianqian,Schoenebeck, Franziska
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supporting information
p. 12425 - 12429
(2018/09/18)
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- COMPOUNDS AS HSP90 INHIBITORS
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The invention provides novel compounds of formula (I) wherein: one of the a, b, c or d members is a nitrogen atom and the remaining members are carbon atoms; and R3 is a radical selected from the group consisting of: —S—R14 and —CH2—R15. The compounds of formula (I) are useful for treating diseases mediated by a heat shock protein 90 (Hsp 90)
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Page/Page column 88-89
(2009/03/07)
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