掺杂材料随着掺杂浓度的提高,放电比容量降低;
With the increasing of doping concentration, the discharge specific capacity decrease.
本发明公布了微波辐照制备钛硅化合物及其掺杂材料的方法。
The invention discloses a method for preparing Ti-Si compound under microwave irradiation and dopant material thereof.
对于半导体材料,有利地可以使用铟合金,而对于掺杂材料,可以使用硒或碲。
As a semiconductor material advantageously an indium alloy and as a doping material selenium or tellurium can be used.
利用介电损耗峰随掺杂量的变化,研究了缺陷浓度在掺杂材料中的变化,以此来研究掺杂对铁电性能的影响机制。
The dielectric loss is measured to study the variation of defect concentration in doped ceramics. And the mechanism of doping is analyzed.
在合适的材料中,使用X射线来控制掺杂剂原子的状态,用这种方法将使制作超导电路成为可能。
It could be possible to make superconductor-based circuits simply by using a beam of X-rays to control the positions of dopant atoms within a suitable material.
掺杂和量子点敏化都增强了金属氧化物材料对可见光的吸收。
Both doping and quantum dot sensitization extend the visible light absorption of the metal oxide materials.
这个研究小组研究了一种典型的材料,钆掺杂氧化铈(GDC),它用于运输氧离子,并且最近被用作一种固态氧化物燃料电池电解质。
The team studied a well-known material, gadolinium doped ceria (GDC), which transports oxygen ions and is currently in use as a solid oxide fuel cell electrolyte.
实验结果表明,少量锰的掺杂能有效地提高材料的循环稳定性和可逆容量。
The experimental results showed that Mn doping in small quantity was effective to improve the cycle stability and reversible capacity of the material.
稀土掺杂磷酸盐玻璃具有优异的光学和光谱特性,在激光介质材料、有色滤光材料等领域中有着重要的应用。
The phosphate glasses doped with rare earth ions have been widely used in laser mediums and optical filter materials for their outstanding optical and spectrum characteristics.
掺杂离子稳定了材料的结构,有利于材料的性能的稳定和提高。
It showed that doped ion stabilized the structure and help to increase the performance of the material.
展望了反尖晶石离子掺杂在锂离子电池锰酸锂正极材料中的发展前景。
The development foreground of inverse spinel ions doping in positive electrode materials of lithium manganese oxide was viewed.
这种差异表明,在器件的材料结构设计上已从掺杂设计步入到了能带工程设计。
It is shown that doping design for the device's material structure has evolved into band engineering design.
稀土离子掺杂碲酸盐系统玻璃是一类应用前景良好的上转换发光材料。
Rare earth ions doped tellurite glasses are kinds of upconversion fluorescence materials which have good application prospect.
铌掺杂硅化石墨是改善材料性能的有效方式。
Therefore, Nb doping silicified graphite is a practical way to improve material properties.
全球唯一采用稀土元素掺杂烧结而成锂离子电池正极材料的稀土锂电池。
The rare-earth lithium power battery adopts positive-pole materials which are made exclusively through sintering of the doped rare-earth element.
为设计研究稀土掺杂能量上转换材料提供了有理论和应用价值的结果。
The results provide some practical guidance to prepare rare-earth doped energy up-conversion materials.
研究了不同掺杂方式对PTCR材料电学性能的影响。
The influence on the character of PTCR materials with different doping method was studied.
由于各掺杂物的优缺点不同,近几年研究发现,双施主掺杂和施受主共掺能够很好的改善材料的性能。
For every dopant has its advantages and disadvantages, results of recent studies show that double-donor doping and donor-acceptor codoping can improve the performance of the material remarkably.
合成后组装法是制备金属掺杂介孔材料的较好途径。
The results demonstrate that post-assembly is superior to in-situ incorporation during producing mesoporous materials doped by metallic element.
结果表明,与四方晶格材料不同,空穴型掺杂双层三角晶格反铁磁体积分自旋动力学不具有普适行为。
It is shown that unlike square antiferromagnets, the integrated spin dynamics of the hole doped bilayer triangular lattice does not show particularly universal behaviors.
掺杂质,掺质剂加入纯半导体材料中的少量硼等物质,用于晶体管和二极管中以改变半导体的。
A substance, such as boron, added in small amounts to a pure semiconductor material to alter its conductive properties for use in transistors and diodes.
实际测量了一种有机光盘存储记录材料偶氮染料掺杂薄膜的时间分辨荧光光谱和荧光寿命。
The data of the time resolved fluorescent spectra and fluorescent life time of an organic optical disk named the azo dye doped thin film are given.
设计了新型的光开关器件,该器件建立在掺杂电光材料的一维光子晶体上。
The switch bases on one-dimensional photonic crystal doped by electro-optical material.
实验结果表明,合成材料经微量掺杂后具有较好的电化学循环性能,可作为锂离子电池的替代正极材料。
The results show that the synthesized material with al doping has good electrochemical properties and can be used as cathode material for lithium ion batteries.
其主要特征是均匀性掺杂,不仅反映在纳米电子发射材料的微观结构方面,而且表现在第二相的更加均匀分布方面。
The mainly characteristic of it is the high efficiency intermingles and homogeneous. Not only the microstructure but also the second phase is uniform.
锂二次电池;正极材料;钒氧化物;金属掺杂;纳米材料;电化学。
Rechargeable lithium battery; Cathode material; Vanadium oxide; Metal doping; Nanostuctural material; Electrochemistry.
稀土离子由于其独特的电子层结构使得稀土离子掺杂的发光材料具有其它发光材料所不具有的许多优异性能。
Because of the special electronic shell structure, the rare earth-doped luminescence materials have been provided with outstanding luminescence properties than the other type luminescence materials.
选择不同价态补偿离子掺杂是为了研究电荷补偿作用机制对该类材料发光性能的作用。
The doping ions with various valences were selected to verify the charge compensation effect on the luminescence intensity as K and al seem to have similar charge compensation effect.
选择不同价态补偿离子掺杂是为了研究电荷补偿作用机制对该类材料发光性能的作用。
The doping ions with various valences were selected to verify the charge compensation effect on the luminescence intensity as K and al seem to have similar charge compensation effect.
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