非水解溶胶-凝胶法,non-hydrolytic sol-gel
1)non-hydrolytic sol-gel非水解溶胶-凝胶法
1.Porous TiO_2 photocatalytic thin films were prepared by thenon-hydrolytic sol-gel route.采用非水解溶胶-凝胶法制备了多孔TiO_2光催化薄膜。
2.TiO_2 photocatalytic thin films were prepared by thenon-hydrolytic sol-gel method using TiCI4 as precursor,absolute etha- nol as oxygen donor and polyethylene glycol (PEG) as film-forming agent.以TiCl_4为前驱体,无水乙醇为氯供体,聚乙二醇(polyethyleneglycol,PEG)为成膜控制剂,通过非水解溶胶-凝胶法制备了TiO_2光催化薄膜。
3.zircon has been synthesized by thenon-hydrolytic sol-gel route using zirconium tetrachloride and tetraethoxysilane as precursors.以工业纯ZrCl4、Si(OC2H5)4为前驱体,通过非水解溶胶-凝胶法合成了硅酸锆。
英文短句/例句
1.PREPARATION OF TeO_2 THIN FILMS FROM TeCl_4 BY NON-HYDROLYTIC SOL-GEL PROCESSING利用TeCl_4非水解溶胶-凝胶法制备TeO_2薄膜
2.Low-temperature Non-hydrolytic Sol-gel Synthesis of Aluminum Titanate低温非水解溶胶-凝胶法制备钛酸铝
3.Study on Preparation of TiO_2 Photocatalytic Thin Films via Non-hydrolytic Sol-gel;非水解溶胶—凝胶法制备TiO_2光催化薄膜的研究
parative Research on the Synthesis of Aluminum Titanate Powders by Nonhydrolytic and Hydrolytic Sol-Gel Method非水解和水解溶胶-凝胶法合成钛酸铝粉体的研究对比
5.Study on the Preparation of Al_2TiO_5 Powder via Nonhydrolytic Sol-Gel Route Using Alcohols as Oxygen Donor;以醇作氧供体的非水解溶胶—凝胶法制备钛酸铝粉体的研究
6.Technical Study on the Synthesis of Mullite Powder and Whisker via Non-Hydrolytic Sol-Gel Route非水解溶胶—凝胶法合成莫来石粉体及晶须的工艺研究
7.Synthesis of Chrysotile Nanotubes by Sol-gel Hydrothermal Method溶胶-凝胶水热法合成纤蛇纹石纳米管
8.Sol-gel Template-Hydrothermal Synthesis NaYF_4 Nanoparticles溶胶凝胶模板-水热法合成纳米NaYF_4
9.Preparation of RDX/SiO_2 Film by Sol-gel Method溶胶-凝胶法制备RDX/SiO_2膜
10.Preparation of SnP_2O_7 Powders by Sol-Gel Method溶胶-凝胶法制备SnP_2O_7粉体
11.D. Gelatin capsules: Aspirate with a syringe, or capsule may be dissolved in warm water over several minutes. After capsule dissolves, remove its gelatin outer layer.凝胶胶囊:用注射器抽吸,或用温水溶解胶囊。待胶囊溶解后,除去凝胶外层。
12.Preparation of Alumina Aerogels with Sol-Gel Method by Ambient-dried Technique常压干燥溶胶-凝胶法制备Al_2O_3气凝胶
13.Preparation of La_xCa_(1-x)MoO_(4+δ) Electrolyte Powders by Sol-gel Method溶胶-凝胶法制备La_xCa_(1-x)MoO_(4+δ)电解质粉体
14.Preparation of Double Doped CeO_2- Based Electrolyte Powders by Sol-Gel Method溶胶-凝胶法制备双掺杂的CeO_2基电解质粉末
15.THERMAL DECOMPOSITION AND CRYSTALLIZATION PROCESS OF ZnO:Al THIN FILMS VIA SOL-GEL ROUTE溶胶-凝胶法制备ZnO:Al薄膜的热分解及晶化过程
16.Structural Study of Alumina Carrier Coating Fabricated Via Sol-Gel Method;溶胶-凝胶法制备氧化铝水洗涂层的结构研究
17.Preparation of Chlorine Evolution Anode Used in Seawater by Sol-gel Process and Studying on Their Electrochemical Performance;溶胶—凝胶法制备海水析氯用阳极及性能研究
18.Preparation of fluoro-containing superhydrophobic cotton fabric with TiO_2 sol-gel method二氧化钛溶胶-凝胶法制备含氟超疏水棉织物
相关短句/例句
nonhydrolytic sol-gel非水解溶胶-凝胶法
1.Aluminum titanate gel is prepared bynonhydrolytic sol-gel route using titanium tetrachloride and anhydrous aluminum trichloride as precursors and anhydrous alcohol as an oxygen donor.以无水三氯化铝和四氯化钛为前驱体,以无水醇为氧供体通过非水解溶胶-凝胶法制备钛酸铝凝胶。
2.Aluminum titanate powder has been synthesized at low temperature of 750℃bysolvent-freenonhydrolytic sol-gel route using titanium tetrachloride and anhydrousaluminum trichloride as precursors and anhydrous alcohols as oxygen donors.本研究采用无水低碳醇为氧供体,以无水AlCl_3和TiCl_4为前驱体,利用无溶剂的非水解溶胶-凝胶法在750℃低温合成出钛酸铝粉体。
3)nonhydrolytic sol–gel非水解溶胶–凝胶法
1.Aluminum titanate has been synthesized at low temperature bynonhydrolytic sol–gel route using titanium tetrachloride and anhydrous aluminum trichloride as raw materials and anhydrous alcohols as oxygen donors.以TiCl4和无水AlCl3为原料,以无水低碳醇为氧供体通过非水解溶胶–凝胶法低温合成了钛酸铝,研究了无水低碳醇种类及用量对钛酸铝合成反应的影响。
4)hydrolytic sol-gel水解溶胶-凝胶法
1.Aluminum titanate powder was synthesized by nonhydrolytic andhydrolytic sol-gel method,respectively.分别采用非水解和水解溶胶-凝胶法合成钛酸铝粉体,利用FT-IR、DTA-TG、XRD、SEM等方法研究了溶胶-凝胶转变和合成相变化过程及粉体烧结性能。
5)Non-hydrolytic sol-gel method非水溶胶-凝胶法
6)nonaqueous sol-gel method非水溶胶凝胶法
延伸阅读
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。