Frederic Sulzmann
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View article: Thermal synthesis of electron deficient oxygen species on crystalline IrO<sub>2</sub>
Thermal synthesis of electron deficient oxygen species on crystalline IrO<sub>2</sub> Open
μ 2 -O species shown to be active in OER can be thermally produced on crystalline IrO 2 bound to Ir IV+ δ without requiring the presence of Ir III , which offers a route to higher-performance stable OER catalysts.
View article: Adjusting the Chemical Reactivity of Oxygen for Propylene Epoxidation on Silver by Rational Design: The Use of an Oxyanion and Cl
Adjusting the Chemical Reactivity of Oxygen for Propylene Epoxidation on Silver by Rational Design: The Use of an Oxyanion and Cl Open
The development of catalysts for propylene oxide production from direct epoxidation using propylene and oxygen remains a challenge. Compared to ethylene epoxidation, where selectivity on silver catalysts is high, the low selectivity to pro…
View article: Operation of calcium-birnessite water-oxidation anodes: interactions of the catalyst with phosphate buffer anions
Operation of calcium-birnessite water-oxidation anodes: interactions of the catalyst with phosphate buffer anions Open
Interactions of the calcium-birnessite catalyst with phosphate buffer anions under water-oxidation conditions.
View article: Operation of Calcium-Birnessite Water-Oxidation Anodes: Interactions of the Catalyst with Phosphate Buffer Anions
Operation of Calcium-Birnessite Water-Oxidation Anodes: Interactions of the Catalyst with Phosphate Buffer Anions Open
Investigating the interfaces between electrolytes and electrocatalysts during electrochemical water oxidation is of tremendous importance for an understanding of the factors influencing catalytic activity and stability. Here, the interacti…
View article: Operation of Calcium-Birnessite Water-Oxidation Anodes: Interactions of the Catalyst with Phosphate Buffer Anions
Operation of Calcium-Birnessite Water-Oxidation Anodes: Interactions of the Catalyst with Phosphate Buffer Anions Open
Investigating the interfaces between electrolytes and electrocatalysts during electrochemical water oxidation is of tremendous importance for an understanding of the factors influencing catalytic activity and stability. Here, the interacti…