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1)  sol-gel method
溶胶–凝胶法
1.
Electric properties of Na_(0.5)Bi_(0.5)TiO_(3-)K_(0.5)Bi_(0.5)TiO_3 system ceramics prepared by sol-gel method
溶胶–凝胶法制备NBT-KBT系陶瓷及其电性能
2.
The nanometer YSZ (ZrO2+9mol%Y2O3) powder was prepared by modified sol-gel method, with non-polluted oxalic acid as precipitator, low-cost ZrOCl28H2O and Y(NO3)36H2O as precursor, and PEG400 and PEG4000 as compound surfactant.
以无污染的草酸为沉淀剂,廉价的无机盐ZrOCl2·8H2O和Y(NO3)3·6H2O为前驱物,PEG400和PEG4000为复合表面活性剂,采用HCl调节pH值、无水乙醇超声分散等手段,对传统溶胶–凝胶法进行了改进。
3.
35TiO3 thin films were prepared by sol-gel method on fused quartz and Al2O3 substrates.
溶胶–凝胶法在石英和Al2O3单晶衬底上沉积Ba0。
2)  sol–gel method
溶胶–凝胶法
1.
00, 口 denotes a cation vacancy) were synthesized successfully via the sol–gel method.
利用溶胶–凝胶法合成系列阳离子/阴离子双缺陷型氧基磷灰石Ca3–3xLa7+2x口x(SiO4)6O1。
2.
Sm_2O_3 optical thin film was prepared on glass and Si(100) substrates by the sol–gel method using samarium dichloride as raw material, and the thin film was heat treated at 300—800 ℃ for 1—3 h.
以氯化钐为起始原料,采用溶胶–凝胶法在玻璃和Si(100)基板上制备了Sm_2O_3光学薄膜,在300~800℃对薄膜进行1~3h热处理。
3.
Ytterbium-doped gadolinium gallium garnet(Yb:Gd3Ga5O12,Yb:GGG) polycrystalline powder were synthesized by a sol–gel method.
采用溶胶–凝胶法合成了Yb:Gd3Ga5O12(Yb:GGG)多晶粉体。
3)  sol-gel process
溶胶–凝胶法
1.
Lead zriconate titante (PZT) ferroelectric thin films grown on Pt/Ti/SiO2/Si substrates by a simple sol-gel process, without reflux or high temperature distillation to remove water.
通过简单的溶胶–凝胶法和快速热处理工艺,获得了在Pt/Ti/SiO2/Si基片上生长良好的PZT薄膜。
2.
NASICON was prepared by sol-gel process.
该传感器是将溶胶–凝胶法制备的NASICON材料均匀涂敷在Al2O3陶瓷管上,烧结形成厚膜,加热丝穿过管内提供热量。
4)  sol-gel
溶胶–凝胶法
1.
Fine powders formed by nanometer Ag clusters embedded in SiO2 (SiO2:nm-Ag) were prepared by sol-gel method.
采用溶胶–凝胶法制备了掺纳米银的二氧化硅(SiO2:nm-Ag)微粉,并探讨其形成机理。
2.
TiO2 film is prepared on the 316 stainless steel by sol-gel.
通过溶胶–凝胶法在316L不锈钢表面制备TiO2薄膜。
5)  sol-gel method
溶胶-凝胶法
1.
Study of structure and properties of LTCC of MgO-Al_2O_3-SiO_2 system by sol-gel method;
溶胶-凝胶法制备MgO-Al_2O_3-SiO_2系LTCC基板材料及其结构性能研究
2.
Study on the effect of ethylenediamine on the morphology of nano-ZnO prepared by sol-gel method;
乙二胺对溶胶-凝胶法制纳米ZnO形貌的影响研究
3.
Study on Preparation and Technology Factors of Nanometer γ-Al_2O_3 Powder by Sol-Gel method;
溶胶-凝胶法合成纳米γ-Al_2O_3工艺研究
6)  sol-gel process
溶胶-凝胶法
1.
Study on preparation of HEC/SiO2 organic/inorganic hybrid by Sol-Gel process;
溶胶-凝胶法制备HEC/SiO_2杂化材料的工艺研究
2.
Study on polyimide/ Al_2O_3 nanocomposite materials by sol-gel process;
溶胶-凝胶法制备聚酰亚胺/Al_2O_3纳米复合材料的研究
3.
Progress on Organic/Inorganic Hybrid Materials by Sol-Gel Process ——2.Organic/Inorganic Hybrid Materials with Non-Chemical Bond Interaction Between Phases;
溶胶-凝胶法合成有机无机杂化材料进展——2组分间以次价力作用的有机无机杂化材料
补充资料:溶胶-凝胶法
分子式:
CAS号:

性质:一种用于制取无机固体材料和器件的方法。无机固体化合物和无机材料通常是利用高温固相反应制备,但是,一般地说,高温固相反应得到固体产物的均匀性较差,反应所需的温度较高,产物的料理论基础和形貌也无法控制。溶胶-凝胶方法利用前体物(如醇盐或无机盐)将反应物在分子的尺度上均匀混合,经溶胶和凝胶过程使之转变为固体;由于固体凝胶中反应物是在分子水平上均匀混合,避免了固相反应扩散过程,使反应可以在较低的温度下进行,还可以根据需要将凝胶成型,再经热处理得到具有一定形状的材料和器件。利用溶胶-凝胶方法可以制备出各种形态的材料,如薄膜、纤维、块体或粉末等。近年来,溶胶-凝胶方法在很多领域中得到了广泛应用,特别是在陶瓷材料和器件上制造中的应用,得到了多种均匀、具有特定微结构和性能的固体材料。

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