Modeling Amine Methylation in Methyl Ester Cavitand

Norjmaa, Gantulga; Rebek, Julius; Himo, Fahmi

doi:10.1002/chem.202303911

Chemistry A European J

2024

DOI: 10.1002/chem.202303911

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Modeling Amine Methylation in Methyl Ester Cavitand

Gantulga Norjmaa,

Julius Rebek,

Fahmi Himo

Abstract: Methylation of amines inside an introverted resorcinarene‐based deep methyl ester cavitand is investigated by means of molecular dynamics simulations and quantum chemical calculations. Experimentally, the cavitand has been shown to bind a number of amines and accelerate the methylation reaction by more than four orders of magnitude for some of them. Eight different amines are considered in the present study, and the geometries and energies of their binding to the cavitand are first characterized and analyzed. … Show more

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Metallocage Photoredox Confined Synergistic Catalysis on 1,3-Rearrangement Reaction

Wang,

Li,

Zhu

et al. 2024

ACS Catal.

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The realm of catalytic chemistry has witnessed notable advancements through the integration of photoredox confined synergistic catalysis, a method that synergizes the benefits of photoredox and confined catalysis. This innovative approach facilitates the generation of reactive intermediates via photoredox reactions, while the confined microenvironment tailors distinct selectivity processes. Despite its progress, several aspects, including the intricacies of the encapsulation process, the characteristics of the catalysis, and the underlying synergistic mechanisms, remain to be fully elucidated. In order to answer these questions, this work investigated the 1,3-rearrangement reaction mechanism of cinnamyl ammonium bromide within a metallocage (K12[Ga4L6], L = N,N′-bis(2,3-dihydroxybenzoyl)-1,5-diaminonaphthalene). Through molecular dynamics simulations, the encapsulation process was meticulously analyzed to determine the initial host–guest assembly structure. Subsequent quantum chemical calculations shed light on the mechanistic details and selectivity nuances of the 1,3-rearrangement. The investigation reveals that the radical mechanism unfolds in two pivotal stages: the breaking of the C–N bond, accompanied by an electronic state conversion facilitated by photoredox catalysis, and the formation of the C–N bond, conducted within the confined space of the metallocage. Notably, confined catalysis plays a crucial role in altering the product selectivity, demonstrating the potential of this catalytic strategy to guide the reaction pathways with enhanced precision. This study not only clarifies the operational dynamics of photoredox confined synergistic catalysis but also lays the foundation for future innovations in catalytic chemistry by highlighting the critical factors that influence reaction selectivity and efficiency.

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Metallocage Photoredox Confined Synergistic Catalysis on 1,3-Rearrangement Reaction

Wang,

Li,

Zhu

et al. 2024

ACS Catal.

View full text Add to dashboard Cite

show abstract

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Modeling Amine Methylation in Methyl Ester Cavitand

Cited by 1 publication

References 48 publications

Metallocage Photoredox Confined Synergistic Catalysis on 1,3-Rearrangement Reaction

Metallocage Photoredox Confined Synergistic Catalysis on 1,3-Rearrangement Reaction

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