1) inorganic solid proton conductor
无机质子导体
1.
Development on the study of proton exchange membranes composited with inorganic solid proton conductors;
质子交换膜掺杂固体无机质子导体材料的研究进展
2) proton conductor
质子导体
1.
The synthesis of BaCe_(0.7)Zr_(0.2)Gd_(0.1)O_(3-δ) proton conductors by Pechini Method;
Pechini法合成BaCe_(0.7)Zr_(0.2)Gd_(0.1)O_(3-δ)质子导体
2.
Preparation of the proton conductor BaZr_(0.68)Ce_(0.17)Y_(0.15)O_(2.925) by a route of chelating-combustion;
络合-燃烧法制备BaZr_(0.68)Ce_(0.17)Y_(0.15)O_(2.925)质子导体
3.
Preparation and electrical properties of Ba(Ce_(0.5-x)Zr_(0.5-x))Yb_(2x)O_(3-δ) proton conductors;
BaCe_(0.5-x)Zr_(0.5-x)Yb_(2x)O_(3-δ)质子导体的制备及电性能
3) Protonic conductor
质子导体
1.
High temperature protonic conductors with perovskite structure BaCeO3,SrCeO3 and MZrO3 showed pure protonic conduction behavior in pure hydrogen atmosphere,while some of them showed the mixed conduction behavior of proton,oxygen ion and electron in the operation condition of SOFC.
钙钛矿型高温质子导体BaCeO3、SrCeO3和MZrO3在纯H2气氛中为纯质子导体,但在SOFC工作条件下,有些表现为质子、氧离子,甚至电子的混合导体,有些质子导体在CO2气氛中的化学稳定性较差。
2.
In wet hydrogen atmosphere,the protonic transport number is unity and the sample is a pure protonic conductor.
结果表明:在干燥空气中,陶瓷样品是一个氧离子与空穴的混合导体;在湿润氢气中,陶瓷样品的质子迁移数为1,是一个纯的质子导体。
4) inorganic semiconductor nanoparticle
无机半导体纳米粒子
5) "Liquid-like" Proton Conductivity mechanism
"似液体"质子传导机理
6) inorganic semiconductor
无机半导体
1.
The purpose of this paper is to summarize the development of the inorganic semiconductor materials including TiO_2,ZnO and CdS, which are used as the photo-initiators in polymerization.
在总结具有光催化功能的无机半导体材料发展概况的基础上,综述了使用典型无机半导体材料,包括TiO2、ZnO和CdS,进行光引发高分子聚合反应的研究概况。
补充资料:质子导体
分子式:
CAS号:
性质:又称质子导体,是能传导氢离子或水合氢离子H3O+的化合物。氢离子导体一般都含水,如杂多酸Hm[XxYyOz]·nH2O(X和Y可代表多种元素),蒙脱石和H3O+β-Al2O3等。它们虽在室温下有较高的电导率,但热稳定性差,随着温度的升高和水的失去,电导率逐渐降低。不含水的氧化物氢离子导体如掺杂SrCeO3和BaCeO3,则不受温度影响,是高温质子导体,在1000℃的电导率达10-2S·cm-1。质子导体可用作氢/氧燃料电池的隔膜材料。
CAS号:
性质:又称质子导体,是能传导氢离子或水合氢离子H3O+的化合物。氢离子导体一般都含水,如杂多酸Hm[XxYyOz]·nH2O(X和Y可代表多种元素),蒙脱石和H3O+β-Al2O3等。它们虽在室温下有较高的电导率,但热稳定性差,随着温度的升高和水的失去,电导率逐渐降低。不含水的氧化物氢离子导体如掺杂SrCeO3和BaCeO3,则不受温度影响,是高温质子导体,在1000℃的电导率达10-2S·cm-1。质子导体可用作氢/氧燃料电池的隔膜材料。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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