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1)  sol-gel
溶胶凝胶
1.
Preparation of SiO_x Film by Sol-gel Process and Its Adhesion to Al Substrate;
溶胶凝胶法在铝基片上沉积SiO_x薄膜及结合性能
2.
Studies on stability of copper-based catalysts prepared by sol-gel method;
溶胶凝胶法制备铜系催化剂及其稳定性研究
3.
Studies on Stability of Copper Catalysts Preparated by Sol-Gel;
溶胶凝胶法制备铜催化剂及其稳定性的研究
2)  sol gel
溶胶凝胶
1.
The TiO 2 photocatalyst with mixed crystalline phases was prepared starting from titanium alkoxide and silicon alkoxide via sol gel method.
采用溶胶凝胶技术 ,以钛的醇盐为原料 ,通过在溶胶中加入正硅酸乙酯抑制TiO2 晶型的转变 ,制得了一种高光催化活性的具有混晶结构的纳米TiO2 光催化剂 ,并将其负载于硅胶载体。
2.
Zirconia thin films were formed on fused quartz using the sol gel process, and their structure was determined using X ray diffraction (XRD) and atomic force microscopy (AFM).
为研究石英玻璃基板上二氧化锆薄膜的定向排列特征及相转变对其定向排列的影响 ,采用溶胶凝胶工艺在石英玻璃基体上制备了二氧化锆薄膜 ,并利用 X射线衍射仪及原子力显微镜对薄膜结构进行了分析。
3.
Titanium dioxide ulterfine powders were prepared by sol gel and supercritical fluid drying methods taking tetrabutoxytitanium as raw material, and the powder was characterized in terms of TEM, XRD, DTA TG, IR and BET techniques.
以钛酸丁酯 (Ti(OR) 4 )为原料 ,采用溶胶凝胶法及超临界流体干燥技术制备了纳米TiO2 粉体。
3)  solgel ['sɔldʒel]
溶胶凝胶
1.
The activity of FCC additives of Zn(Al2O)2 with different ZnO contents were prepared by solgel,and the desulfurization effect of additives in the gasoline was evaluated in a micro reactor.
本研究以A l2O3为载体,采用溶胶凝胶法制备了不同氧化锌质量分数的液体脱硫助剂,在固定床微型反应器上对助剂。
2.
S1200 bioactive glass-ceramics were prepared by sintering the solgel derived 58S bioactive glass at 1 200 ℃, and 58S1200 glass-ceramic showed a higher bending strength and density as compared to 58S glass.
溶胶凝胶58S生物玻璃为原料在1200℃煅烧制备了玻璃陶瓷块体。
3.
The resorcinolformaldehyde (RF) and nickel hydroxide compound aerogels were synthesized by solgel process and supercritical drying technique using resorcinol, formaldehyde, nickel nitrate and anhydrous sodium carbonate as raw materials.
以间苯二酚、甲醛、碳酸氢钠、硝酸镍为原料,采用溶胶凝胶法和超临界干燥工艺制得间苯二酚甲醛与Ni(OH)2复合气凝胶,对不同pH值和Ni(OH)2含量的复合气凝胶结构进行研究。
4)  sol-gel method
溶胶凝胶
1.
Porous microspherical TiO2 were successfully synthesized by surfactant-aided sol-gel methods using a non-ionic surfactant TO8 as templates.
以非离子型表面活性剂TO8为模板剂,采用溶胶凝胶-表面活性剂法合成了介孔TiO2微球。
2.
One way, highly ordered SnO2 nanowire arrays embedded in anodic alumina membranes (AAMs) were fabricated by sol-gel method, first SnO2 colloidal suspensions filled in the pores of AAMs, then annealed at 600℃for 10h.
以二次阳极氧化的多孔氧化铝薄膜为模板,一种以溶胶凝胶的方法,先将氧化锡溶胶灌入模板微孔中,在600℃烧结10 h得到有序的SnO2纳米线阵列;另一种,用电化学沉积的方法,先在模板微孔中沉积金属锡,然后在600℃高温下氧化10h得SnO2纳米线阵列。
3.
In this work, magnesium borate and aluminum borate nanomaterials have been successfully synthesized by hydrothermal and sol-gel method.
本文采用水热法和溶胶凝胶法成功合成了硼酸镁和硼酸铝纳米材料,通过X射线衍射、扫描电子显微镜、透射电子显微镜对合成的硼酸盐纳米材料的形貌和结构进行了表征,研究了各工艺参数对产物物相和形貌的影响规律。
5)  Sol-Gel process
溶胶凝胶
1.
Synthesis of GdAl3(BO3)4:Eu3+ red phosphors in powder crystal form were conducted by the Sol-Gel process at lower temperature 960 ℃ compared with conventional solid state reaction.
溶胶凝胶法合成GdAl3(BO3)4:Eu3+红色荧光粉。
2.
Homogeneous Ba-Sr-Ti-Si-B-O gel has been successfully prepared by sol-gel process.
 采用硝酸钡、硝酸锶、钛酸丁酯、正硅酸乙脂和硼酸三正丁脂为原料的溶胶凝胶方法制备了Si B O系BaxSr1-xTiO3玻璃陶瓷。
3.
09(Bi2O3·3TiO2) was prepared by sol-gel process using (C4H9O)4Ti, Sr(NO3)2,Bi(NO3)3 and (NH4)3(C6H5O7) as row materials through the formation of multi cetric-comp lexes as intermediate.
本文采用(C4H9O)4Ti,Sr(NO3)2和Bi(NO3)3为原料制成柠檬酸多元配合物溶液,经过形成溶胶凝胶过程,在一定条件下进行热分解,获得组成为:0。
6)  Sol-Gel
溶胶-凝胶
1.
Effect of pyrolysis atmosphere on properties of BLT ferroelectric films deposited by sol-gel method;
热分解气氛对溶胶-凝胶法制备BLT铁电薄膜性能的影响
2.
Chemistry Mechanism Discussion of Preparing HAP with Sol-gel Method;
溶胶-凝胶法制备羟基磷灰石粉体化学机理分析
3.
Synthesis of the blue long afterglow phosphor Sr_2MgSi_2O_7:Eu,Dy by sol-gel method and its luminescent properties;
溶胶-凝胶法合成蓝色长余辉材料Sr_2MgSi_2O_7:Eu,Dy及其发光特性
补充资料:溶胶-凝胶法
分子式:
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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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