Simple ammonium and pyridinium perrhenate salts were evaluated as catalysts for the deoxydehydration (DODH) of diols into alkenes. Pyridinium perrhenates were found to be effective catalysts at much lower temperatures than those in previous reports, outperforming primary, secondary, and tertiary ammonium salts, while quaternary ammonium salts are effectively inactive. The mechanism of reaction was studied computationally using DFT calculations which indicate that proton shuttling between the ion pair is intrinsic to the mechanism and that the reduction of rhenium by the phosphine occurs before the diol condensation.
Danny S. Morris, Karlotta van Rees, Massimiliano Curcio, Mirza Cokoja, Fritz E. Kühn, Fernanda Duarte, et al. (2017). Deoxydehydration of vicinal diols and polyols catalyzed by pyridinium perrhenate salts. JOURNAL OF ADVANCED CATALYSIS SCIENCE AND TECHNOLOGY, 7(23), 5644-5649 [10.1039/c7cy01728f].
Deoxydehydration of vicinal diols and polyols catalyzed by pyridinium perrhenate salts
Massimiliano CurcioCo-primo
;
2017
Abstract
Simple ammonium and pyridinium perrhenate salts were evaluated as catalysts for the deoxydehydration (DODH) of diols into alkenes. Pyridinium perrhenates were found to be effective catalysts at much lower temperatures than those in previous reports, outperforming primary, secondary, and tertiary ammonium salts, while quaternary ammonium salts are effectively inactive. The mechanism of reaction was studied computationally using DFT calculations which indicate that proton shuttling between the ion pair is intrinsic to the mechanism and that the reduction of rhenium by the phosphine occurs before the diol condensation.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
