综述了快离子导体材料在能源领域中的应用。
In this paper, the applications of fast ion conductors in power source field are reviewed.
所以有必要探索适合多组分锂离子导体材料的新型合成方法;
The above shows that a new and suitable method for the multi-compound lithium ionic conductors should be found.
采用以无机盐为基础的新型溶胶凝胶法合成了NA SICON 快离子导体材料。
Solid electrolyte NASICON (sodium super ionic conductor) was synthesized by new sol gel method in which inorganic salts were used as raw material.
介绍了混合氧离子导体材料同时具备电子和氧离子导电能力,在一些应用领域极具研究价值;
A kind of materials having electronic and oxide ion conducting behaviors, which can be found applications in some fields, is presented.
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.
在皮秒脉冲激光辐照时,半导体材料表面的能量转换过程中,重点讨论能量从电子-空穴等离子体到晶格的转换过程。
The processes of energy transfer of semiconductor surface irradiated by picosecond laser pulses are studied. Discussion is focussed on energy transfer from the electron-hole plasma to the lattice.
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.
迄今为止,人们已经利用离子注入技术在光学晶体、玻璃、半导体以及有机聚合物等大量光学材料中形成了光波导结构。
Up to now, many waveguide structures have been formed by ion implantation in various materials such as optical crystals, glasses, semiconductors and polymers, etc.
该镍离子掺杂的氧化镉基稀磁半导体纳米材料存在形态为纳米粉末和纳米薄膜。
The existence mode of the nickel ion-doped cadmium oxide-based diluted magnetic semiconductor nano material is the nano powder and the nano film.
射频辉光放电等离子体在微电子及半导体薄膜材料生长等方面有着广泛的应用。
Plasma in radio frequency (rf) glow discharge is widely used in the preparation of semiconductor film materials and microelectronic industry.
长期从事先进功能材料薄膜制备和离子注入改性方面的科学研究,重点是宽禁带半导体材料与器件。
Main research fields are the preparation and ion implantation studies of advanced functional material films. The focuses are on the material and device characteristics of wide band gap semiconductors.
长期从事先进功能材料薄膜制备和离子注入改性方面的科学研究,重点是宽禁带半导体材料与器件。
Main research fields are the preparation and ion implantation studies of advanced functional material films. The focuses are on the material and device characteristics of wide band gap semiconductors.
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