摘要
The MgO samples are prepared by heating Mg(OH) 2 at 600 ℃ in different atmospheres. The XRD results show that Mg(OH) 2 is decomposed into MgO after calcination. The results of BET indicate that the specific surface area of the samples is affected by the calcination atmosphere, the sample preheated in vacuum has the highest surface area, while the sample preheated in air has the lowest surface area. The CO 2 TPD profiles of the samples are also different, which implies that the samples have different surface basicity. From the desorbed amount of CO 2 and the desorption activation energy, it is found that the sample pretreated in vacuum has the most basic sites and the strongest basicity.
The MgO samples are prepared by heating Mg(OH) 2 at 600 ℃ in different atmospheres. The XRD results show that Mg(OH) 2 is decomposed into MgO after calcination. The results of BET indicate that the specific surface area of the samples is affected by the calcination atmosphere, the sample preheated in vacuum has the highest surface area, while the sample preheated in air has the lowest surface area. The CO 2 TPD profiles of the samples are also different, which implies that the samples have different surface basicity. From the desorbed amount of CO 2 and the desorption activation energy, it is found that the sample pretreated in vacuum has the most basic sites and the strongest basicity.
出处
《催化学报》
SCIE
CAS
CSCD
北大核心
2000年第3期286-288,共3页
基金
国家自然科学基金资助项目!(29973037)
关键词
氧化镁
表面碱性
焙烧
二氧化碳
程序升温脱附
magnesium oxide, surface basicity, calcination, carbon dioxide, temperature programmed desorption