1) alkoxide process
醇盐法
1.
Supported ultrafine Ni/SiO_2 catalyst was prepared by the alkoxide process.
用醇盐法制备了超细负载型催化剂Ni/SiO2,并应用于虫白蜡的高压催化加氢反应。
2) alkoxide method
醇盐法
1.
An ultrafine CuO-ZnO-SiO2 catalyst for CO2 hydrogenation was prepared by alkoxide method, of which a comparative investigation with the ultrafine CuO-SiO2 was carried out by TEM (Transmission Electron Micrography),XRD (x-Ray Diffraction) and TPR (Temperature-Programmed Reduction ).
采用醇盐法制备了超细CuO-ZnO-SiO2催化剂,进行了CO2加氢反应和透射电镜测试,同时以超细CuO-SiO2为对比,分别进行了XRD、TPR研究。
2.
SiO_2 supported Cu-Zn catalysts have been prepared by the alkoxide method.
用醇盐法制备Cu-ZnO/SiO_2催化剂。
3) alkoxide hydrolysis
醇盐水解法
1.
Nanometer Particle Ni/MnO x , Ni-Al/MnO x , Ni-Cu/MnO x and Ni-Cr/MnO x have been prepared by means of metal alkoxide hydrolysis.
采用醇盐水解法制备氧化物负载纳米粒子金属Ni、Ni-Al、Ni-Cu和Ni-Cr催化剂 ,考察了金属种类、负载量、反应温度、反应时间及催化剂用量对松香歧化反应的影响 。
4) metal-alkoxide method
金属醇盐法
1.
YAG precursor was synthesized by metal-alkoxide method using yttrium-alkoxide and aluminum-alkoxide as raw materials and acetic acid as the catalyst.
以烷氧基金属化合物为原料,乙酸为催化剂,采用金属醇盐法制备了YAG前驱体粉体,在不同温度下焙烧,得到了YAG纳米粉体,并改变乙酸与水的用量以及醇盐溶液浓度,初步探讨了催化剂及醇盐溶液浓度对合成纯相YAG粉体的影响。
5) controlled hydrolysis of metal alkoxide
醇盐水解法
1.
In order to increase the function of the silica to extend its application,the hydration of the silica powder obtained by the controlled hydrolysis of metal alkoxide was studied.
为了增加S iO2的功能以拓展它的应用范围,采用醇盐水解法制备S iO2粉末,并对其水合性能进行讨论。
6) sol-precipitation
醇盐水解法
1.
To study the effects of different conditions in the one-step nanofluid preparation on the size of nanoparticles,water-SiO2 nanofluid was prepared using the sol-precipitation method.
为了研究纳米流体的一步法制备中不同条件对纳米颗粒粒径的影响,使用醇盐水解法制备了水-SiO2纳米流体。
补充资料:熔盐电解法生产铌粉(见熔盐电解法生产钽粉)
熔盐电解法生产铌粉(见熔盐电解法生产钽粉)
production of niobium powder by molten salt electrolysis
rongyand+onjlefa ShengChan n.fen熔盐电解法生产妮粉(produetion。fn;obi-um powder by molten salt eleetrolysls)见熔盐电解法生产担粉。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条