将某些离子导体与氧化物陶瓷结合起来构成复合电解质,在大多数情况下可提高材料的电导率。
Mixing some ionic conductors and oxide ceramic together to form composite electrolyte, at most cases, can enhance materials' conductivity.
因此,研究纳米多层氧离子导体电解质薄膜结构、电学性能和稳定性已成为一个重要研究内容。
Therefore, the study of oxygen ion conductor electrolyte nanometer multilayer film structure, electrical properties and stability has become an important research.
电流在与电解质接触的半导体材料的一或多个表面上形成多孔层。
The current forms a porous layer on the one or more surfaces of the semiconductor material in contact with the electrolyte.
快离子导体(有时又称固体电解质)是指离子电导率接近有时甚至超过盐溶液和电解质溶液的一类固态材料。
Fast ion conductors (sometimes are named solid electrolyte) are a kind of solid material which ion conductivity can near or exceed liquid electrolyte.
将电解质加热且在该电解质与半导体材料上引入偏压而引起电流在电解质与半导体材料之间流动。
The electrolyte is heated and a bias is introduced across said electrolyte and the semiconductor material causing current to flow between the electrolyte and the semiconductor material.
因此,聚苯胺乙炔黑复合电解质可以作为有效的空穴导体材料,应用到固态染料敏化太阳能电池中。
Therefore, the PANI acetylene black composition is a credible alternative to hole conductor in ap plication of solid DSSC.
染料增感半导体层(3)和多孔绝缘层(4)由电解质浸透。
The dye-sensitized semiconductor layer (3) and the porous insulating layer (4) are impregnated with an electrolyte.
染料增感半导体层(3)和多孔绝缘层(4)由电解质浸透。
The dye-sensitized semiconductor layer (3) and the porous insulating layer (4) are impregnated with an electrolyte.
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