Redox-based Catalytic Chemistry of Transition Metal Complexes

Redox-based Catalytic Chemistry of Transition Metal Complexes

Kojima, Takahiko

Royal Society of Chemistry

12/2024

394

Dura

9781837674695

Pré-lançamento - envio 15 a 20 dias após a sua edição

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Overview of the Catalytic Chemistry of Metal Complexes
Bioinspired Catalysts of Non-heme Iron Oxygenases
The Role of Copper in Biocatalysis
Oxidation of Inert Substrates by Metalloenzymes
Catalytic Oxidation Reactions Using Second and Third Series Transition Metal Complexes
Integration of Metal Nanoparticles and Metal-Organic Frameworks for Composite Catalysts
Environmentally Friendly Liquid-phase Oxidation Reactions Using Polyoxometalate Compounds
Metal Complex Catalysts Immobilized on Porous Materials
A Theoretical Approach for Investigating the Reaction Mechanism of Methane-Methanol Conversion, and Application of the Approach to Catalysts
Activation of H2
Nitrogen Fixation
Activation of the Dinitrogen Molecule: The Relationship Between the Structures and Reactivities of Dinitrogen Metal Complexes
Hydrogenation of Organic Compounds
Transition-metal Complexes for Transformations of Tetrafluoroethylene
Catalytic Reactions by Metal Clusters
Functionalization via C-H Bond Activation
Photocatalytic Redox Reactions with Metal Complex Catalysts
CO2 Reduction Using Metal Complexes as Photocatalysts
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polyoxometallate; bioinspired; non-heme iron; biocatalysis; copper; metalloenzymes; reaction mechanisms; nanoparticles; MOFs; catalysts; porous materials; nitrogen fixation; dinitrogen; photocatalysis