Enol ethers pyridinium chlorochromate

Halogenation of enol ethers and enol esters, leading directly to a-halo ketones is realized by use of molecular halogen or halide salts and metal oxidants. Pyridinium chlorochromate (PCC)/l2, Cr03/TMS-Cl/l2, AgOAcfi2, T10Ac/l2. ° Pb(OAc)4 and metal halides and Cu(OAc)2/l2 are useful classes of reagents for this conversion, and some examples are listed in Table 1. 

Oxidations by pyridinium chlorochromate resemble those by dipyridine chromium(VI) oxide, both in scope and the mild conditions required. At room temperature, primary alcohols give aldehydes [604, 605], secondary alcohols afford ketones [605], allylic and benzylic methylene groups are oxidized to carbonyl groups [606, 6d7], enol ethers are converted into esters [608] or lactones [609], trimethylsilyl ethers of diphenols are transformed into quinones [610], and alkylboranes are converted into aldehydes (yll]. 

A convenient method for the oxidation of enol ethers to esters has been achieved using pyridinium chlorochromate [equation (5)]. Cyclic ethers give the corresponding lactone. 

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