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Leveraging Divergent LMCT Excited State Pathways for Catalyst Control over Alkoxyl Radical Reactivity
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Ligand-to-metal charge-transfer (LMCT) excitation has emerged in recent years as a powerful modality in organic synthesis, namely for the generation of heteroatom-centered radicals through formal met-al-ligand bond homolysis from the LMCT excited state. However, exploitation of alternative LMCT excited state processes has been extremely limited. Here, we describe a general strategy for tuning the reaction course from LMCT excited states of titanium alkoxides. This reactivity paradigm has been exploited for tandem β-scission/Giese addition reactions of both scission-amenable and scis-sion-recalcitrant alcohols under divergent reaction pathways of met-al-ligand bond homolysis and excited state β-scission through judicious choice of electronically tuned Ti catalysts. Through intramolecular competition studies, catalyst-controlled scission is shown to facilitate a rate enhancement of up to 103-fold over the intrinsic scission of free alkoxyl radical, highlighting the impact of accessing the excited state scission paradigm.
American Chemical Society (ACS)
Title: Leveraging Divergent LMCT Excited State Pathways for Catalyst Control over Alkoxyl Radical Reactivity
Description:
Ligand-to-metal charge-transfer (LMCT) excitation has emerged in recent years as a powerful modality in organic synthesis, namely for the generation of heteroatom-centered radicals through formal met-al-ligand bond homolysis from the LMCT excited state.
However, exploitation of alternative LMCT excited state processes has been extremely limited.
Here, we describe a general strategy for tuning the reaction course from LMCT excited states of titanium alkoxides.
This reactivity paradigm has been exploited for tandem β-scission/Giese addition reactions of both scission-amenable and scis-sion-recalcitrant alcohols under divergent reaction pathways of met-al-ligand bond homolysis and excited state β-scission through judicious choice of electronically tuned Ti catalysts.
Through intramolecular competition studies, catalyst-controlled scission is shown to facilitate a rate enhancement of up to 103-fold over the intrinsic scission of free alkoxyl radical, highlighting the impact of accessing the excited state scission paradigm.
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