1) stearic acid method
硬脂酸法
1.
In order to obtain a more effective catalyst for the ammonium perchlorate decomposition,LaCoO3 nanocrystals were prepared by stearic acid method,using La(NO3)3 and Co(NO3)2 as the starting materials.
以硝酸镧和硝酸钴为原料,通过硬脂酸法制备了纳米LaCoO3。
2.
2)Ti_3O_(10) had been successfully prepared by stearic acid method at relatively low temperature.
采用硬脂酸法在相对较低的温度下掺杂Nb制备了K2La1。
3.
SnO 2 and TiO 2-SnO 2 nano-powders were prepared by stearic acid method.
采用硬脂酸法分别制备了SnO2 纳米粉体及TiO2 SnO2 混合纳米粉 ,并应用XRD和TEM等分析方法对所得粉体进行了表征。
2) stearic acid SOL-Gel method
硬脂酸法
1.
Nanocrystalline TiO2 powders doped with Na+ and K+ were prepared by stearic acid sol-gel method.
采用硬脂酸法制备了不同掺杂量的TiO2纳米晶。
3) Stearic acid gel method
硬脂酸凝胶法
1.
Composite oxide powders of α Fe 2O 3 K 2O B 2O 3 were synthesized by stearic acid gel method, and the porous ceramic materials were detained by the liquid phase calcination method.
用硬脂酸凝胶法工艺合成不同配比的α Fe2 O3 K2 O B2 O3复合氧化物超微粉 ,经液相烧结法制得多孔陶瓷材料 。
2.
Nanocrystals Y 2O 3 were prepared by the stearic acid gel method.
采用硬脂酸凝胶法制备了 Y2 O3纳米晶 ,用傅立叶变换红外光谱 ( FTIR) ,热重 -差热 ( TG- DTA)对制备过程进行了表征。
3.
BaTiO3 ultrafine powder is prepared by the stearic acid gel method.
用硬脂酸凝胶法制备了BaTiO_3超微粉。
4) gelatin combustion method
硬脂酸合成法
5) sodium stearate
硬脂酸钠
1.
In-situ preparation of hydrophobic CaCO_3 in present of sodium stearate;
硬脂酸钠原位改性碳酸钙的研究
2.
The rutile nano-TiO2 precoated Al2O3 was modified with sodium stearate.
利用硬脂酸钠对表面包覆氧化铝的纳米TiO2进行了有机表面改性。
3.
Methods: The sodium stearate was selected to modify the magnesia powder,and the modified time,the pH value of solution and temperature for the influence of the modified effect were reviewed.
方法采用硬脂酸钠对氧化镁粉体进行表面改性,考察了浓度、温度和溶液pH值对吸附量的影响。
6) stearic acid
硬脂酸
1.
Study of organic surface modification of nanosized ZnO with stearic acid;
硬脂酸对纳米ZnO的有机表面修饰研究
2.
Mechanistic studies of the effect of stearic acid coated Mg(OH)_2 on properties of EVA/Mg(OH)_2 composites;
硬脂酸改性Mg(OH)_2的机理及对EVA性能的影响
3.
The preparation of nanosized BaSO_4 particles modified with stearic acid;
硬脂酸修饰的纳米硫酸钡的制备
补充资料:硬脂酸铝
分子式 C54H105O6Al
性状 白色无定形粉末。分子量845.08。密度1.01g/cm3。熔点103℃。不溶于水。溶于乙醇、苯、松节油、矿油、碱。加热或遇强酸分解为硬脂酸和相应的铝盐。一般商品中含有一定比例的棕榈酸铝。
生产方法 主要采用复分解法。以硬脂酸为原料,先加热熔融,与氢氧化钠溶液进行皂化反应,然后与硫酸铝进行复分解反应,最后经洗涤、离心脱水、干燥而得.
用途 阴离子型表面活性剂。主要用作膏霜类化妆品的助乳化剂,对油包水型乳化液具有良好的乳化作用。通常与其它乳化剂合并使用。
性状 白色无定形粉末。分子量845.08。密度1.01g/cm3。熔点103℃。不溶于水。溶于乙醇、苯、松节油、矿油、碱。加热或遇强酸分解为硬脂酸和相应的铝盐。一般商品中含有一定比例的棕榈酸铝。
生产方法 主要采用复分解法。以硬脂酸为原料,先加热熔融,与氢氧化钠溶液进行皂化反应,然后与硫酸铝进行复分解反应,最后经洗涤、离心脱水、干燥而得.
用途 阴离子型表面活性剂。主要用作膏霜类化妆品的助乳化剂,对油包水型乳化液具有良好的乳化作用。通常与其它乳化剂合并使用。
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