Awesome and Easy Science Experiments about 10049-08-8

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Application of 10049-08-8. Chemistry is an experimental science, and the best way to enjoy it and learn about it is performing experiments.Introducing a new discovery about 10049-08-8, Name is Ruthenium(III) chloride

Carbonate selective Ca2Ru2O7-y pyrochlore enabling room temperature carbonate fuel cells: I. Synthesis and physical characterization

Synthesis of a carbonate selective Ca2Ru2O 7-y catalyst was investigated using solid-state and hydrothermal routes. The resulting materials were physically characterized by x-ray diffraction, BET gas adsorption, scanning electron microscopy and temperature programmed desorption. The solid-state reaction of precursor oxides, CaO and RuO2, led to the formation of a perovskite phase. A hydrothermal route using O2 as an oxidizing agent yielded a mostly amorphous phase primarily comprised of unreacted precursor. The use of low concentration KMnO4 (10 mM) as a replacement for O2 in the hydrothermal synthesis, in combination with high pH (?14) and moderate temperature (200C), yielded a highly crystalline, thermally stable Ca 2Ru2O7-y pyrochlore. The increase in crystallinity was attributed to the ability of permanganate to maintain ruthenium in the +5 oxidation state required for formation of the pyrochlore phase. Micron-sized primary particles with a high density of ? 50 nm surface nanocrystallites were obtained. The presence of the nanocrystallites gave the pyrochlore a high surface area, 174 m2/g. The pyrochlore showed preferential surface adsorption of CO2 compared to H2O, making it a feasible candidate for a carbonate selective catalyst. This preferential adsorption was attributed to the use of calcium, an alkaline earth metal, which gave the pyrochlore a high surface basicity.

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Reference£º
Highly efficient and robust molecular ruthenium catalysts for water oxidation,
Catalysts | Special Issue : Ruthenium Catalysts – MDPI