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1)  Nanotube titanic acid
纳米管钛酸
1.
The Ag loaded nanotube titanic acid was prepared by the photo-reduction method.
采用光催化还原法制备了载银纳米管钛酸,通过TEM可以看到纳米管钛酸表面附着有银颗粒,XPS和XRD等结果显示银颗粒是以单质银的形式存在。
2.
Liquid-phase polycondensation of acetone catalyzed by nanotube titanic acid(NTA) and TiO2 were investigated and compared.
研究了纳米管钛酸(NTA)对丙酮液相缩聚反应的影响,并与TiO2催化丙酮液相缩聚反应进行了对比。
3.
The adsorption properties of nanotube titanic acid, TiO_2(A) and P_25TiO_2 to reactive brilliant red X-3B in aqueous solution were studied in the dark.
研究了在暗态下纳米管钛酸,TiO2(A),P25TiO2对水溶液中活性艳红X 3B的吸附性能。
2)  nanotubed titanic acid
纳米管钛酸
1.
The results indicatethat the nanotubed titanic acid prepared by this method is of high surface area with high yield.
以偏钛酸浆料为原料通过水热法合成了纳米管钛酸,并采用TEM,比表面积测定仪等分析手段观察其形貌和管径大小,测定了其比表面积和孔体积。
2.
CdS-inserted nanotubed titanic acid was prepared and characterized with TEM, XRD and DRS.
制备了镶嵌硫化镉的纳米管钛酸,并用透射电镜(TEM)、X射线衍射(XRD)、扩散反射(DRS)等工具进行了表征。
3)  nanotubes of titanic acid
纳米钛酸管
1.
The antifouling agent isothiazoline could enter the lumen of the nanotubes of titanic acid by capillary attraction and be entrapped effectively.
以纳米钛酸管为包埋载体,4,5-二氯-2-正辛基-4-异噻唑啉-3-酮(简称异噻唑酮)为防污剂,利用毛细吸附作用,将异噻唑酮防污剂包埋进纳米钛酸管,并对纳米钛酸管中异噻唑酮的释放进行了研究。
4)  nanotubular titanate
钛酸盐纳米管
1.
The results show that nanotubular titanate formed during hydrothermal treatment rather than in washing or immersing processes.
以锐钛矿相为主的氧化钛粉体为原料,在强碱性条件下采用水热合成法制备出外径约10nm的钛酸盐纳米管。
5)  titanate nanotubes
钛酸盐纳米管
1.
A study on the stability of titanate nanotubes prepared by hydrothermal process;
水热法制备钛酸盐纳米管的稳定性研究
2.
The titanate nanotubes have been attracted widely attention due to their strong absorption in the visible light region and potential application on the utilization of the solar energy.
由于钛酸盐纳米管具有强的可见光吸收因而在太阳能利用方面将有潜在的应用前景而备受人们广泛的关注。
6)  Titanate nanotube
钛酸盐纳米管
1.
Hydrothermal preparation and characters of magnetic ions doped titanate nanotubes;
磁性离子掺杂钛酸盐纳米管的合成与表征
2.
Titanate nanotubes were prepared by hydrothermal method, and the products were characterized with TEM, XRD, and XPS.
采用水热法制备了钛酸盐纳米管,并用TEM、XRD、XPS对其进行了表征。
3.
The photoelectrochemical properties of the titanate nanotubes were investigated.
采用水热法制备了钛酸盐纳米管,并将钛酸盐纳米管制备成纳米结构电极进行光电化学研究。
补充资料:偏钛酸锂
分子式: LiTiO3 
CAS号:

性质:无色粉末。熔点1520~1564℃。不溶于水。由二氧化钛和碳酸锂一起熔化反应制取。用作电子材料。

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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