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1)  Li4Ti5O12 coating
Li4Ti5O12微粒
2)  Li_4Ti_5O_(12)
Li4Ti5O12
1.
The research status of crystal structure,character of lithium inserting,synthetic method and doping modification of lithium titanate(Li_4Ti_5O_(12)) as anode material for Li-ion battery was reviewed.
介绍了锂离子电池负极材料钛酸锂(Li4Ti5O12)的晶体结构、嵌锂特性、制备方法及掺杂改性的研究现状。
2.
At 1000 ℃, through one step and no pressing pellet for reactants, the pure cubic-spinel phase Li_4Ti_5O_(12) was prepared with amorphous-TiO_2+Li_2CO_3 for 8 h in air.
以无定形TiO2 为原料,反应物无需压制,在1 000 ℃反应8 h制得性能较好的纯尖晶石相Li4Ti5O12, 充放电电流为0 5c时比容量为127 mA·h·g-1,0 1c时比容量达145 mA·h·g-1。
3.
Li_4Ti_5O_(12) was prepared by solid-state method with different sources of titanium(anatase,rutile,amorphous) and lithium(Li_2CO_3,LiOH·H_2O),the preparation of Li_4Ti_5O_(12) was optimized and Li_4Ti_5O_(12) was characterized.
H2O),采用高温固相合成法合成Li4Ti5O12,并对Li4Ti5O12的合成工艺进行了优化。
3)  nanoLi4Ti5O12
纳米Li4Ti5O12
4)  spinel Li4Ti5O12
尖晶石Li4Ti5O12
1.
An in-situ technology for the preparation of spinel Li4Ti5O12 by hydrolysis of TiCl4 in acidic aqueous solution was presented.
以TiCl4和LiOH·H2O为原料,通过控制TiCl4水溶液水解条件,让Li+离子嵌入Ti的水解产物中,原位合成了尖晶石Li4Ti5O12。
5)  microparticle [,maikrəu'pɑ:tikl]
微粒
1.
Self-assembly of microparticles driven by capilliary forces;
界面张力驱动的微粒自组装研究
2.
Pressure effects on drug microparticle formation by using supercritical fluid technology;
压力对超临界流体技术制备药物微粒的影响
3.
Experimental study on preparation of microparticles by using supercritical CO_2 spray drying;
超临界CO_2喷雾干燥制备乙基纤维素微粒的实验研究
6)  particles [英]['pɑ:tikl]  [美]['pɑrtɪkḷ]
微粒
1.
Effect of particles sedimentation during leaching on seepage characteristic of copper dumps;
微粒渗滤沉积作用对铜矿排土场渗流特性的影响
2.
Study of particles in the air effect solution quality in intravenous administration;
静脉给药中空气微粒影响药液质量的实验观察(英文)
3.
The method of measuring distribution function of a particles shape in perturbation ameliorating;
真实形体微粒形体分布函数的动态光学测量方法
补充资料:Li-Ti gyromagnetic (mi-crowave)ferrite
分子式:
CAS号:

性质:在锂铁氧体基础上用四价钛离子置换一部分三价铁离子所形成的旋磁铁氧体。具有尖晶石型结构,典型化学式为O4,式中[  ]代表八面体晶位,其余金属离子处于四面体晶位。锂铁氧体中引入钛离子,在于降低饱和磁化强度。饱和磁化强度可达0.04T。铁磁共振线宽3.6kA/m左右。居里温度120~275℃。磁滞回线为矩形。对应力不敏感。主要原料为二氧化钛、碳酸锂和氧化铁。为防止烧结过程中锂的挥发损失和降低烧成温度,配料时常加入微量的氧化铋。采用一般电子陶瓷工艺,热压烧结或氮气氛烧结。为提高自旋波共振线宽,常加入少量氧化钴。为降低铁磁共振线宽,有时还加入少量氧化锌。可用于制作C波段和X波段的数字移相器。

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