02350nam 2200505 a 450 991080927120332120200520144314.01-283-73488-50-08-091441-1(CKB)2670000000069645(EBL)635400(OCoLC)700703961(MiAaPQ)EBC635400(EXLCZ)99267000000006964520060719d2007 uy 0engur|n|---|||||txtrdacontentcrdamediacrrdacarrierPalladium in heterocyclic chemistry a guide for the synthetic chemist /edited by Jie Jack Li, Gordon W. Gribble2nd ed.Amsterdam ;Boston Elsevier20071 online resource (660 p.)Tetrahedron organic chemistry series ;v. 26Prev. ed. entered under Li.0-08-045117-9 Includes bibliographical references and index.Cover; I045116-FM; I045116-01; I045116-02; I045116-03; I045116-04; I045116-05; I045116-06; I045116-07; I045116-08; I045116-09; I045116-10; I045116-11; I045116-12; I045116-13; I045116-14; I045116-IdxPalladium chemistry, despite its immaturity, has rapidly become an indispensable tool for synthetic organic chemists. Heterocycles are of paramount importance in the pharmaceutical industry and palladium chemistry is one of the most novel and efficient ways of making heterocycles. Today, palladium-catalyzed coupling is the method of choice for the synthesis of a wide range of biaryls and heterobiaryls. The number of applications of palladium chemistry to the syntheses of heterocycles has grown exponentially. These developments highlight the need for a monograph dedicated solely to the pTetrahedron organic chemistry series ;v. 26.Heterocyclic compoundsSynthesisOrganopalladium compoundsHeterocyclic compoundsSynthesis.Organopalladium compounds.547/.590459Li Jie Jack440094Gribble Gordon W93007MiAaPQMiAaPQMiAaPQBOOK9910809271203321Palladium in heterocyclic chemistry951802UNINA