研究了氧在Ag/SiO2催化剂上的超高真空程序升温脱附. 结果表明,脱附谱中出现了对应于表面分子氧(Tp=340 K)、体相氧(Tp=570 K)和次表层氧(Tp=700~800 K)的脱附峰. 由于催化剂在制备过程中经过高温焙烧,因而其表面原子氧浓度低,脱附谱中未出现原子氧的脱附峰. 高温焙烧还可使表面缺陷浓度增大,有利于原子氧向体相扩散,形成体相溶解氧,也有利于体相氧向表面扩散,所以对应于体相氧的570 K脱附峰较强. 体相氧和次表层氧向表面的扩散遵循不同的扩散机理.
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