TY - JOUR

T1 - Practical TEMPO-mediated oxidation of alcohols using different polymer-bound co-oxidants

AU - Kloth, Katrin

AU - Brünjes, Marco

AU - Kunst, Eike

AU - Jöge, Thomas

AU - Gallier, Florian

AU - Adibekian, Alexander

AU - Kirschning, Andreas

PY - 2005/8

Y1 - 2005/8

N2 - Hypochlorite and chlorite exchange resins are evaluated as co-oxidants or oxidants, respectively, for the oxidation of alcohols to the corresponding aldehydes, ketones or carboxylic acids. Polymer-bound hypochlorite can act as a co-oxidant in TEMPO-mediated oxidations of alcohols. The formation of aldehydes only works under weakly acidic conditions. However, the cheap hypochlorite exchange resin is less efficient as co-oxidant compared to the use of ionically immobilised bisacetoxybromate(I) anions. In contrast, the chlorite exchange resin is a highly potent co-oxidant for the preparation of carboxylic acids from the corresponding primary alcohols in the presence of TEMPO. It is demonstrated that in this case also the resin acts as a polymer-bound co-oxidant for both oxidation steps. Yields are commonly excellent as is also demonstrated for examples taken from natural product synthesis which include acid labile glycosides. In most cases, work-up of this heavy metal-free oxidation is kept to a minimum. It often includes filtration followed by removal of the solvent.

AB - Hypochlorite and chlorite exchange resins are evaluated as co-oxidants or oxidants, respectively, for the oxidation of alcohols to the corresponding aldehydes, ketones or carboxylic acids. Polymer-bound hypochlorite can act as a co-oxidant in TEMPO-mediated oxidations of alcohols. The formation of aldehydes only works under weakly acidic conditions. However, the cheap hypochlorite exchange resin is less efficient as co-oxidant compared to the use of ionically immobilised bisacetoxybromate(I) anions. In contrast, the chlorite exchange resin is a highly potent co-oxidant for the preparation of carboxylic acids from the corresponding primary alcohols in the presence of TEMPO. It is demonstrated that in this case also the resin acts as a polymer-bound co-oxidant for both oxidation steps. Yields are commonly excellent as is also demonstrated for examples taken from natural product synthesis which include acid labile glycosides. In most cases, work-up of this heavy metal-free oxidation is kept to a minimum. It often includes filtration followed by removal of the solvent.

KW - Aldehydes

KW - Carboxylic acids

KW - Chlorites

KW - Ketones

KW - Oxidations

KW - Polymer-bound reagents

KW - TEMPO

UR - http://www.scopus.com/inward/record.url?scp=24644464759&partnerID=8YFLogxK

U2 - 10.1002/adsc.200505005

DO - 10.1002/adsc.200505005

M3 - Article

AN - SCOPUS:24644464759

VL - 347

SP - 1423

EP - 1434

JO - Advanced Synthesis and Catalysis

JF - Advanced Synthesis and Catalysis

SN - 1615-4150

IS - 10

ER -