What question did this study set out to answer?

This research aims to explore a two-step sequence for synthesizing cyclolignans from allylbenzenes.

March 1, 2026Open Access

Dimerization of Allylbenzenes into Cyclolignans by a Metathesis-Oxidation Sequence

Puntos clave

This research aims to explore a two-step sequence for synthesizing cyclolignans from allylbenzenes.
Utilized Ru-catalyzed olefin metathesis for dimerization of allylbenzenes.
Implemented iron- or acid-catalyzed oxidation with DDQ in one pot.
Conducted oxidation under wet conditions for alternative product generation.
Dimeric cyclolignans were successfully formed from allylbenzenes.
Oxidation under wet conditions primarily produced benzyl styryl ketones.
Mechanistic insights indicated involvement of single electron transfer, hydrogen atom transfer, and proton transfer steps.

Resumen

Allylbenzenes form dimeric cyclolignans in a two-step, one-pot sequence involving Ru-catalyzed olefin metathesis followed by iron- or acid-catalyzed oxidation with DDQ. Alternatively, performing the oxidation step under wet conditions leads to benzyl styryl ketones as the major products. The mechanistic investigation suggests that the oxidation process relies on the combination of single electron transfer, hydrogen atom transfer, and proton transfer steps. The developed metathesis-oxidation sequence enables a straightforward and scalable preparation of arylnaphthalene and aryltetralin types of cyclolignans, such as oleralignan B and its derivatives.

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