What question did this study set out to answer?

To investigate the deoxygenation of alcohols using a titanium porphyrin complex with visible light as an activation method.

April 10, 2026Open Access

Radical Deoxygenation of Alcohols via Visible Light Irradiation of a Titanium Porphyrin Catalyst

Puntos clave

To investigate the deoxygenation of alcohols using a titanium porphyrin complex with visible light as an activation method.
Employed a titanium porphyrin catalyst for the direct deoxygenation of alcohols.
Activated the catalyst using purple LED light for photoexcitation.
Demonstrated application in Giese addition and nickel-mediated cross-coupling reactions.
Successfully generated carbon-centered radicals under mild conditions.
Catalyst turnover was achieved through visible light activation.
Preliminary applications showed promise in synthetic methodologies like cross-coupling.

Resumen

Alcohols are ubiquitous motifs in organic molecules that can be employed as radical precursors, usually activated through a two-step process. In this work, we present the unique ability of a titanium porphyrin complex to directly deoxygenate alcohols without preactivation. The system generates the carbon-centered radical under mild reaction conditions and turns over the catalyst via photoexcitation with purple LEDs. To demonstrate its preliminary value, the radical intermediate can be utilized for Giese addition and nickel-mediated cross-coupling.

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