Surface‐Immobilized Single‐Site Iridium Complexes for Electrocatalytic Water Splitting
Copyright policy )Surface‐Immobilized Single‐Site Iridium Complexes for Electrocatalytic Water Splitting
however, the design andimplementation of a stable and efficient molecular wateroxidation system that operates at high catalytic turnovernumber (TON) and frequency (TOF) for extended periods ofcontrolled-potential electrolysis (CPE), with moderate over-potential and high current density, are challenging.
- University of North Texas System United States
- University of North Texas United States
- Universidad de Ingeniería y Tecnología Peru
- Leiden University Netherlands
catalysis, Molecular Structure, Surface Properties, solar energy, Water, Electrochemical Techniques, iridium, Iridium, water splitting, Catalysis, Oxygen, electrochemistry, Organometallic Compounds, Protons, Oxidation-Reduction
catalysis, Molecular Structure, Surface Properties, solar energy, Water, Electrochemical Techniques, iridium, Iridium, water splitting, Catalysis, Oxygen, electrochemistry, Organometallic Compounds, Protons, Oxidation-Reduction
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