Preparation and Physicochemical Characterization of La_(1-x)Ce_xCoO_(3+δ) Perovskite Catalyst and Its Methane Catalytic Combustion 被引量：4

Preparation and Physicochemical Characterization of La_(1-x)Ce_xCoO_(3+δ) Perovskite Catalyst and Its Methane Catalytic Combustion

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摘要 Perovskite oxide LaCoO_3 methane catalytic material was synthesized with citric acid complexation and bubbling method. The effect of doped cerium was studied on the series of La_(1-x)Ce_xCoO_(3+δ) materials by means of BET, XRD and SEM techniques. Their catalytic behaviors were studied with methane catalytic complete combustion as probe reaction. The results show that doped cerium has great effect on crystal phase formation. When doped cerium is less than 0.3 ((molar) ratio), the crystal phase of oxide has little changed. When doped cerium is up to 0.5, Co_3O_4 phase is obviously discovered and the perfectibility of LaCoO_3 perovskite crystal phase is deteriorated. When x is over 0.7, perovskite crystal phase is weakened or completely disappeared. Considering the crystal phase of oxides, the optimum doped cerium is about 0.3. The perovskite oxides can be formed at a low calcinations temperature of 700 ℃. When x is 0.3, the highest catalytic activity of T_(10%) (390 ℃) and T_(90%) (603 ℃) is obtained on the series of La_(1-x)Ce_xCoO_(3+δ) materials calcined at 800 ℃. Perovskite oxide LaCoO_3 methane catalytic material was synthesized with citric acid complexation and bubbling method. The effect of doped cerium was studied on the series of La_(1-x)Ce_xCoO_(3+δ) materials by means of BET, XRD and SEM techniques. Their catalytic behaviors were studied with methane catalytic complete combustion as probe reaction. The results show that doped cerium has great effect on crystal phase formation. When doped cerium is less than 0.3 ((molar) ratio), the crystal phase of oxide has little changed. When doped cerium is up to 0.5, Co_3O_4 phase is obviously discovered and the perfectibility of LaCoO_3 perovskite crystal phase is deteriorated. When x is over 0.7, perovskite crystal phase is weakened or completely disappeared. Considering the crystal phase of oxides, the optimum doped cerium is about 0.3. The perovskite oxides can be formed at a low calcinations temperature of 700 ℃. When x is 0.3, the highest catalytic activity of T_(10%) (390 ℃) and T_(90%) (603 ℃) is obtained on the series of La_(1-x)Ce_xCoO_(3+δ) materials calcined at 800 ℃.

作者崔梅生李明来张顺利龙志奇崔大立黄小卫

机构地区 Grirem Advanced Materials Co.

出处《Journal of Rare Earths》 SCIE EI CAS CSCD 2004年第5期623-627,共5页 稀土学报（英文版）

基金 SupportedbytheNationalTenth 5 YearPlanFoundationofChina ( 2 0 0 1AA3 0 40 5 0 )

关键词 citric acid complexation PEROVSKITE METHANE catalytic combustion rare earths citric acid complexation perovskite methane catalytic combustion rare earths

分类号 O643.3 [理学—物理化学]

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2004年第5期

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Preparation and Physicochemical Characterization of La_(1-x)Ce_xCoO_(3+δ) Perovskite Catalyst and Its Methane Catalytic Combustion 被引量：4

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