![]() ![]() Munnik P, Krans NA, de Jongh PE, de Jong KP. ![]() Reactivity of Al 2O 3- or SiO 2-supported Cu-, Mn-, and Co-based oxygen carriers for chemical looping air separation. Song H, Shah K, Doroodchi E, Wall T, Moghtaderi B. Formation of surface basicity through the decomposition of alkali metal nitrates on γ-Al 2O 3. Thermal decomposition of metal nitrates in air and hydrogen environments. Yuvaraj S, Fan-Yuan L, Tsong-Huei C, Chuin-Tih Y. It can be concluded that the calcination temperature promotes the melting and volatilization of CsNO 3 rather than the decomposition. With the elevation of calcination temperature, the CsNO 3 salts are in the form of Cs-O-M (Si, Al) and CsNO 3 molecules. As a result, the surface and physical properties of carriers affect the dispersion of Cs species, and thermal behaviors. N 2 physical adsorption isotherms are used to study the textural properties and thermal stability of carriers and carriers supported CsNO 3, while TG analysis, XRD, FT-IR, and XPS are used to analyze the thermal behaviors, phase composition, and chemical state of all the samples. The thermal behaviors of CsNO 3 supported on SiO 2 and Al 2O 3 carriers are thus comprehensively investigated to reveal the phase composition, and chemical state of Cs species under different temperatures. Among them, cesium nitrates (CsNO 3) are an indispensable active precursor in the aldol condensation reaction. Alkali metal oxides have been widely employed as active components in the various solid-base catalysts. ![]()
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