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- Artificial Photosynthesis
- Catalysis: Reactivity & Structure
- Electrochemical Energy Storage
- Electron- and Photo-Induced Processes for Molecular Energy Conversion
- Neutrino and Nuclear Chemistry
- Surface Electrochemistry and Electrocatalysis
Associated Groups
- Catalysis for Alternative Fuels Production
- Nanostructured Interfaces for Catalysis
- Structure and Dynamics of Applied Nanomaterials
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Artificial Photosynthesis
Reduction of Carbon Dioxide
- Mechanistic insight into CO2 hydrogenation
- Rapid Transfer of Hydride Ion from a Ruthenium Complex to C1 Species in Water
- Reversible Hydrogen Storage using CO2 and a Proton-Switchable Iridium Catalyst in Aqueous Media
- Nickel(II) Macrocycles: Highly Efficient Electrocatalysts for the Selective Reduction of CO2 to CO
- Calculation of Thermodynamic Hydricities and the Design of Hydride Donors for CO2 Reduction
- Mechanisms for CO Production from CO2 Using Re(bpy)(CO)3X Catalysts
Hydrogen Production
- Biomass-derived electrocatalytic composites for hydrogen evolution
- Hydrogen-Evolution Catalysts Based on NiMo Nitride Nanosheets
Water Oxidation
- Enabling light-driven water oxidation via a low-energy RuIV=O intermediate
- Mechanistic understanding of low-energy pathways for catalytic water oxidation by Ru mononuclear polypyridyl complexes
- Design and characterization of BGNSCs for solar water splitting
- Photoisomerization of active d-[Ru(tpy)(pynap)OH2]2+ water oxidation catalyst inhibited by immobilizing onto metal oxide electrodes
- Water Oxidation by a Mononuclear Ruthenium Catalyst: Direct Pathway via Ru(IV)=O without forming Ru(V)=O
- Effects of a Proximal Base on Water Oxidation and Proton Reduction Catalyzed by Geometric Isomers of [Ru(tpy)(pynap)(OH2)]2+
Proton-Coupled Electron Transfer and Excited State Reactions
- Mechanism of the quenching of *[Ru(bpy)3]2+ by peroxodisulfate and its application for photoinduced oxidation reactions
- Toward the prediction of accurate pKa values in water and acetonitrile
- Hydricity of Ruthenium(II) Hydride Complexes
- Steric Effect for Proton, Hydrogen-Atom, and Hydride Transfer Reactions with Geometric Isomers of NADH-Model Ruthenium Complexes