Kelli A. Ogawa scite author profile

We have developed a method to achieve ring-opening metathesis polymerization (ROMP) mediated by oxidation of organic initiators in the absence of any transition metals. Radical cations, generated via one-electron oxidation of vinyl ethers, were found to react with norbornene to give polymeric species with microstructures essentially identical to those traditionally obtained via metal-mediated ROMP. We found that vinyl ether oxidation could be accomplished under mild conditions using an organic photoredox mediator. This led to high yields of polymer and generally good correlation between M(n) values and initial monomer to catalyst loadings. Moreover, temporal control over reinitiation of polymer growth was achieved during on/off cycles of light exposure. This method demonstrates the first metal-free method for controlled ROMP.

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Organocatalyzed Anodic Oxidation of Aldehydes

Finney

2012

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A method for the catalytic formation of electroauxiliaries and subsequent anodic oxidation has been developed. The process interfaces N-heterocyclic carbene-based organocatalysis with electro-organic synthesis to achieve direct oxidation of catalytically generated electroactive intermediates. We demonstrate the applicability of this method as a one-pot conversion of aldehydes to esters for a broad range of aldehyde and alcohol substrates. Furthermore, the anodic oxidation reactions are very clean, producing only H(2) gas as a result of cathodic reduction.

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Expanded Functionality of Polymers Prepared Using Metal-Free Ring-Opening Metathesis Polymerization

et al. 2016

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Photoredox-mediated metal-free ring-opening metathesis polymerization (MF-ROMP) is an alternative to traditional metal-mediated ROMP that avoids the use of transition metal initiators while also enabling temporal control over the polymerization. Herein, we explore the effect of various additives on the success of the polymerization in order to optimize reaction protocols and identify new functionalized monomers that can be utilized in MF-ROMP. The use of protected alcohol monomers allows for homo- and copolymers to be prepared that contain functionality beyond simple alkyl groups. Several other functional groups are also tolerated to varying degrees and offer insight into future directions for expansion of monomer scope.

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Organocatalyzed Anodic Oxidation of Aldehydes to Thioesters

Ogawa

Boydston

2014

Org. Lett.

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A method has been developed for the direct conversion of aldehydes to thioesters via integration of organocatalysis and electrosynthesis. The thiazolium precatalyst was found to facilitate oxidation of thiolate anions, leading to deleterious formation of disulfide byproducts. By circumventing this competing reaction, thioesters were obtained in good-to-excellent yields for a broad range of aldehyde and thiol substrates. This approach provides an atom-efficient thioesterification that circumvents the need for stoichiometric exogenous oxidants, high cell potentials, or redox mediators.

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Recent Developments in Organocatalyzed Electroorganic Chemistry

Ogawa

Boydston

2014

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This highlight review focuses on the integration of organocatalysis and electrosynthesis. Specifically, we detail recent advances involving the use of organocatalysts to alter substrate redox potentials through the in situ generation of electroactive intermediates. The ability to redirect organocatalyzed pathways toward oxidative fates using electrolysis techniques has enabled highly efficient transformations that would traditionally require stoichiometric sacrificial oxidants.

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Kelli A. Ogawa

Metal-Free Ring-Opening Metathesis Polymerization

Organocatalyzed Anodic Oxidation of Aldehydes

Expanded Functionality of Polymers Prepared Using Metal-Free Ring-Opening Metathesis Polymerization

Organocatalyzed Anodic Oxidation of Aldehydes to Thioesters

Recent Developments in Organocatalyzed Electroorganic Chemistry

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