Ruthenium oxide clusters immobilized in cationic vacancies of 2D titanium oxide for chlorine evolution reaction
The development of dimensionally stable anodes (DSAs) has made the chlorine evolution
reaction (CER) the most important industrial anode reaction since the 1960s. However, the
preparation of DSA depends on the extensive use of precious metals, Ru and Ir, which are
expensive and scarce. Herein, a cationic defect adsorption–oxidation anchoring strategy to
immobilize oxidized sub‐nano ruthenium clusters on 2D low‐crystallinity titanium oxide (2D
TiOx) substrate is reported. Through the metal oxide− support interaction, the 2D TiOx alters …
reaction (CER) the most important industrial anode reaction since the 1960s. However, the
preparation of DSA depends on the extensive use of precious metals, Ru and Ir, which are
expensive and scarce. Herein, a cationic defect adsorption–oxidation anchoring strategy to
immobilize oxidized sub‐nano ruthenium clusters on 2D low‐crystallinity titanium oxide (2D
TiOx) substrate is reported. Through the metal oxide− support interaction, the 2D TiOx alters …
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