화학공학소재연구정보센터
Applied Surface Science, Vol.174, No.3-4, 289-295, 2001
Adsorption of nitric oxide and temperature programmed desorption on nonstoichiometric nickel-copper manganites
The interaction of nitric oxide with nonstoichiometric nickel-copper manganites has been investigated by adsorption and temperature programmed desorption (TPD) experiments. Nitric oxide was found to adsorb molecularly at room temperature on such oxides. Reversibly and irreversibly adsorbed NO molecules were evidenced. The amount of reversibly and irreversibly adsorbed NO increased with the nickel content but decreased with the copper one. Moreover, the ratio reversible/irreversible increased with the copper content of the oxides. TPD experiments indicated that adsorbed NO desorbs at low temperature (below 200 degreesC) mainly as NO molecules (70-90%). The balance consists of N2O, a part of which desorbs below 200 degreesC and the rest above 250 degreesC. The area of the peak corresponding to the desorption of nitrous oxide at high temperature is far much larger for copper-free oxides.