摘要
采用直接法合成了K7CrMnW11O39,利用固-气界面反应,研究了Gd对所合成样品的热扩渗。利用IR,XRD,TG-DTA对扩渗前后样品的结构进行了表征。结果表明,经稀土扩渗后,其Keggin结构已被破坏,生成了新相。测试了扩渗前后样品的电导率,扩渗后样品的电导率为扩渗前样品电导率的1×104倍。
K7CrMnW11O39 was synthesized in a direct method and thermal diffusing permeation of Gd to the sample was studied with the solid-gas interface reaction. The structure of the sample was characterized by IR, XRD and TG-DTA before and after diffusing permeation. The results show that Keg, gin structure is broken and transfers to a new phase after thermal diffusing permeation of rare earth elements. Conductivity of samples after diffusing permeation is 1×10^4 times higher than that of samples before diffusing permeation.
出处
《稀有金属》
EI
CAS
CSCD
北大核心
2006年第6期770-773,共4页
Chinese Journal of Rare Metals
基金
国家自然科学基金(20371014)
黑龙江教育厅科研项目(10531070)
哈尔滨市学科后备带头人基金(2002AFXXJ050)资助
关键词
钆
杂多配合物
热扩渗
电导率
Gd
heteropoly complexes
thermal diffusing permeation
conductivity
