A facile and efficient pinacol–pinacolone rearrangement of vicinal diols using ZnCl2 supported on silica as a recyclable catalyst
Author:
Publisher
Elsevier BV
Subject
Process Chemistry and Technology,Catalysis
Reference58 articles.
1. The Pinacol Rearrangement in Comprehensive Organic Synthesis;Rickborn,1991
2. Prins-pinacol spiroannulations
3. Synthesis of diarylazepan-4-ones
4. Verification of the Mechanism of Oxidative Ring Expansion in the Biosynthesis of Stipitatic Acid by Talaromyces stipitatus
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