A comparative investigation of NdSrCu1-xCoxO4-σ and
Sm1:8Ce0:2Cu1-xCoxO4-σ(x: 0-0.4) for NO decomposition |
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作者姓名: | Jiguang Deng Lei Zhang Yunsheng Xi Hongxing Dai Hong He |
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基金项目: | The work was supported by the Natural Science Foundation
of Beijing Municipality Key Class B Project (No.
KZ200610005004), the Beijing Municipal Commission
of Education (No. PHR200907105), and the Academic
Human Resources Development in Institutions of Hi |
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摘 要: | A series of single-phase T-structured NdSrCu1??xCoxO4?? with oxygen vacancies and T0-structured Sm1:8Ce0:2Cu1??xCoxO4?? (x:
0–0.4) with oxygen excess were prepared using ultrasound-assisted citric acid complexing method, and characterized by means of
techniques such as thermogravimetric analysis and NO temperature-programmed desorption (NO-TPD). The catalytic activities of these
materials were evaluated for the decomposition of NO. It was found that the NdSrCu1??xCoxO4?? catalysts were of oxygen vacancies
whereas the Sm1:8Ce0:2Cu1??xCoxO4?? ones possessed excessive oxygen (i.e., over-stoichiometric oxygen); with a rise in Co doping level,
the oxygen vacancy density of NdSrCu1??xCoxO4?? decreased while the over-stoichiometric oxygen amount of Sm1:8Ce0:2Cu1??xCoxO4??
increased. The NO-TPD results revealed that NO could be activated much easier over the oxygen-deficient perovskite-like oxides
than over the oxygen-excessive perovskite-like oxides, with the NdSrCuO3:702 catalyst showing the best e ciency in activating NO
molecules. Under the conditions of 1.0% NO/helium, 2800 hr??1, and 600–900°C, the catalytic activity of NO decomposition followed
the order of NdSrCuO3:702 > NdSrCu0:8Co0:2O3:736 > NdSrCu0:6Co0:4O3:789 > Sm1:8Ce0:2Cu0:6Co0:4O4:187 > Sm1:8Ce0:2Cu0:8Co0:2O4:104
> Sm1:8Ce0:2CuO4:045, in concord with the sequence of decreasing oxygen vacancy or oxygen excess density. Based on the results,
we concluded that the higher oxygen vacancy density and the stronger Cu3+/Cu2+ redox ability of NdSrCu1??xCoxO4?? account for the
easier activation of NO and consequently improve the catalytic activity of NO decomposition over the catalysts.
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关 键 词: | 物理学 NO分解 研究 NdSrCu |
收稿时间: | 18 June 2009 |
修稿时间: | 6 August 2009 |
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