BUSCH, Hanna; STEMPFLE, Florian; HESS, Sandra; GRAU, Etienne; MECKING, Stefan

doi:10.1039/c4gc01233j

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BUSCH, Hanna
Univ Konstanz, Dept. Chemistry

STEMPFLE, Florian
Univ Konstanz, Dept. Chemistry

HESS, Sandra
Univ Konstanz, Dept. Chemistry

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Green Chemistry. 2014, vol. 16, n° 10, p. 4541-4545

Royal Society of Chemistry

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Selective catalytic carbonylation of the trisubstituted double bond of citronellic acid is enabled via an isomerization-functionalization approach. Alkoxycarbonylation with [{1,2-((Bu2PCH2)-Bu-t)(2)C6H4}Pd(OTf)(2)] as a catalyst precursor occurs with >97% selectivity for the terminal diester dimethyl-3,7-dimethylnonane-dioate. This prevails much over the typical cationic methonfaddition. The reactive primary carboxy group formed allows for e.g. the preparation of the high molecular weight novel polyester poly[3,7-dimethylnonanediyl-3,7-dimethylnonanedioate].< Leer menos

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SYSTEMS

LIMONENE

OLEFINS

CATALYZED HYDROFORMYLATION

LINEAR ALDEHYDES

INTERNAL ALKENES

METHYL OLEATE

ACID ESTERS

METHOXYCARBONYLATION

MONOMERS

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Selective isomerization-carbonylation of a terpene trisubstituted double bond

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