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1)  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 。
2)  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。
3)  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。
4)  alkoxide partly hydrolysis
醇盐部分水解法
5)  Alkoxide Hydrolysis Precipitation Method
醇盐水解沉淀法
1.
Study on Antimicrobial PE Membrane Containing SiO_2-W-SYJ Nano-particles by Alkoxide Hydrolysis Precipitation Method;
醇盐水解沉淀法制备的SiO_2-W-SYJ应用于PE薄膜及其性能的研究
2.
Pure TiO_2 nanopowders were prepared by controlled alkoxide hydrolysis precipitation method, and well-grown hollow TiO_2 nanotubes with ringent pipe end were successfully synthesized in different alkali liquor by hydrothermal method.
首次采用可控醇盐水解沉淀法制备出了纯净、细小的纳米TiO_2粉体,以此为前驱体,在不同碱性环境(KOH、NaOH)中,通过水热法制备出了形貌较好、中空、管端开口的TiO_2纳米管;在酸性、中性和有机电解液中,有效控制电解液浓度和氧化时间,利用电化学阳极氧化法制备出了形态各异的排列整齐的纳米管阵列和纳米棒阵列。
3.
TiO2 nanopowders with particle size about 10nm are prepared by TiO2 precursor at 450℃ for 2h,and TiO2 precursor is prepared by controlled alkoxide hydrolysis precipitation method using tetrabutyl titanate as raw materials.
以钛酸丁酯为原料,采用可控醇盐水解沉淀法制得TiO2前驱体,450℃恒温煅烧2h后制备出粒径约10nm的纳米TiO2粉体,并与传统溶胶-凝胶法制备的TiO2纳米粉体的形貌、结构、工艺过程进行了对比。
6)  alkoxide-hydrolysis
醇盐水解
1.
The results indicate that the hydrous alumina prepared by alkoxide-hydrolysis and hydrothermal synthesis methods are both AlOOH,and the AlOOH formed by alkoxide-hydrolysis is pseudo-boehmite.
采用醇盐水解法和水热合成法制备水合氧化铝,研究不同条件对水合氧化铝性能的影响。
补充资料:醇解法甘油
分子式:
CAS号:

性质:油脂与低分子醇(如甲醇、乙醇等)进行醇解反应得到脂肪酸酯(如甲酯、乙酯等)和高浓度的甘油。此甘油经净化、浓缩、蒸馏、精制处理工序得到品质优良的甘油。

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