Delphine Semenzin scite author profile

The Pudovik reaction (addition of organophosphorus compounds containing a labile P-H bond with alkenes and alkynes) can progess via a radical or (and) ionic mechanism. A comparative and systematic study including various reagents and different activation methods (heating, photochemical or ultrasonic irradiation, and dry medium supported reactions) is presented. Photolysis is the most efficient method for the radical processes, but in a few examples, ultrasonic irradiation can be more appropriate since the reaction time is shorter and ultrasound did not induce side-reactions (in particular Z/E isomerization). Dry medium process on basic solid support is the best anionic activation (yield, time, selectivity, purification facilities). Ultrasound, by its mechanical effects, can contribute to increase yield compared to the classical thermal method under these basic conditions. All the activation methods are efficient whatever the unsaturated substrates for the phosphine reactivity, whereas the appropriate activation method is exclusively determined by the nature of the unsaturated system for the thiophosphine (or phosphine oxide) reactivity.

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(Trifluoroacetyl)benzotriazole: A Convenient Trifluoroacetylating Reagent

Katritzky

Yang

Semenzin

1997

J. Org. Chem.

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Alkylation of phosphine PH3 generated from red phosphorus

Semenzin

Etemad‐Moghadam

Albouy

et al. 1994

Tetrahedron Letters

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A novel synthesis of quinolinium salts via benzotriazole methodology

Katritzky¹,

Semenzin²,

Yang³

et al. 1998

Journal of Heterocyclic Chem

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