1) inorganic-organic hybrid material
无机-有机杂化材料
1.
Synthesis,crystal structure and properties of a novel inorganic-organic hybrid material Mo_8O_(26)(H_2bpy)_2(bpy=4,4′-bipyridine);
新型无机-有机杂化材料Mo_8O_(26)(H_2bpy)_2的合成、结构及性能研究(bpy=4,4′-bipyridine)
2.
Recent progress in inorganic-organic hybrid material is reviewed with em-phasis on research and application of this material used as structural material,optical material or coating material in this paper.
简述了近几年来无机-有机杂化材料作为结构材料、光学材料、涂膜材料在不同领域中的研究与应用。
2) Organic-inorganic hybrid materials
无机-有机杂化材料
1.
Organic-inorganic hybrid materials of the manganese vanadate can be formed through the combination and synergistic interaction of the manganese,vanadium building blocks and some organic compounds.
氧化锰、钒氧簇构筑块经与有机组分组合可形成新型结构的锰钒氧无机-有机杂化材料。
3) organic-inorganic hybrid material
有机-无机杂化材料
1.
A new type of sol-gel organic-inorganic hybrid material was developed and used for the production of biosensors.
制备了一种应用于生物传感器的新型有机-无机杂化材料,这种杂化材料由二氧化硅溶胶和聚乙烯醇接枝巯基乙酸组成。
2.
A novel polyoxometalates [Bu4N][Ni(pph3)2]PW11O39 was prepared as organic-inorganic hybrid material for modified electrode by the sol-gel technique.
采用溶胶-凝胶技术制备了新多金属氧酸盐[Bu4N][Ni(pph3)2]PW11O39(Bu为四丁基,pph为苯基磷)有机-无机杂化材料修饰电极,该修饰电极不仅保持了本体溶液的电化学和电催化性质,而且还具有很好的稳定性与灵敏度。
3.
A new organic-inorganic hybrid material-palladacycle/SiO_2 has been prepared from γ-aminopropyltrimethoxysilane via grafting on silica,followed by reacting with vanillic aldehyde and then with Li_2PdCl_4.
首先用γ-氨丙基三甲氧基硅烷对SiO2进行接枝改性,再依次与香草醛、Li2PdCl4反应,合成了环钯/SiO2有机-无机杂化材料。
4) organic/inorganic hybrid material
有机-无机杂化材料
1.
A preparation method of glucose oxidase electrode based on an organic/inorganic hybrid material and car-bon nanotubes was investigated.
介绍了一种基于有机-无机杂化材料和碳纳米管的葡萄糖氧化酶电极的制备方法。
5) organic-inorganic hybrid materials
有机-无机杂化材料
1.
Preparation technology and applications on organic-inorganic hybrid materials;
有机-无机杂化材料的制备技术和应用前景
2.
Over the past decades,the preparation of inorganic and organic-inorganic hybrid materials by the sol-gel process of alkoxysilanes has continued to be an active research area.
利用烷氧基硅烷作为前驱体之一,进行溶胶-凝胶(sol-gel)反应制备无机氧化物和有机-无机杂化材料,近几十年来一直是一个研究热点。
3.
As a newborn intersectional subject in material science, polymeric organic-inorganic hybrid materials will play an important role in the field of material science with their unique structure and excellent properties.
介绍制备聚合物基有机-无机杂化材料的成键方式及制备的主要方法、原理及其特点,包括溶胶-凝胶法、插层复合法、共混法、原位聚合法、纳米微粒原位生成法和微乳液法等,并对有机-无机杂化材料今后的发展作了展望。
6) organic-inorganic hybrid
有机-无机杂化材料
1.
Preparation and microstructure of hydroxyl-terminated polydimethylsiloxane-modified CaO-SiO_2-TiO_2 organic-inorganic hybrids;
羟基硅油改性CaO-SiO_2-TiO_2有机-无机杂化材料的制备与显微结构
2.
Development of bioactive organic-inorganic hybrids prepared through sol-gel method;
有机-无机杂化材料在骨修复中的应用
3.
Synthesis and Characterization of Organic-inorganic Hybrid:NaLn[Mo_8O_(26)(NH_2CH_2COOH)]·nH2_O;
有机-无机杂化材料NaLn[Mo_8O_(26)(NH_2CH_2COOH)]·nH2_O的合成与表征
补充资料:材料保护:磷化与铬酸盐化
磷化与铬酸盐化
金属在含有游离磷酸和易溶的硷﹑酸液中﹐利用表面附近的溶液酸硷度的变化获得难溶磷酸盐膜的材料保护技术。这种膜是金属在含有 6价铬和矿物性酸为主要组分的溶液中所形成的非结晶的无孔保护覆层。磷化广泛用於钢铁製品高级涂装层的前处理﹐还可与防锈油脂结合应用﹐延长有效保护期。磷化一般在接近溶液的沸点的温度下进行﹐硷化槽中的沉渣需要经常清理。铬酸盐化广泛用於锌压铸件﹑热浸锌件和镀锌镀鎘件上﹐形成的覆层能防止零件在潮湿环境中生锈﹐并能提高金属件的抗蚀性和改善外观。铝製品上的铬酸盐化有利於涂装﹐也能改善其抗蚀性和外观。
金属在含有游离磷酸和易溶的硷﹑酸液中﹐利用表面附近的溶液酸硷度的变化获得难溶磷酸盐膜的材料保护技术。这种膜是金属在含有 6价铬和矿物性酸为主要组分的溶液中所形成的非结晶的无孔保护覆层。磷化广泛用於钢铁製品高级涂装层的前处理﹐还可与防锈油脂结合应用﹐延长有效保护期。磷化一般在接近溶液的沸点的温度下进行﹐硷化槽中的沉渣需要经常清理。铬酸盐化广泛用於锌压铸件﹑热浸锌件和镀锌镀鎘件上﹐形成的覆层能防止零件在潮湿环境中生锈﹐并能提高金属件的抗蚀性和改善外观。铝製品上的铬酸盐化有利於涂装﹐也能改善其抗蚀性和外观。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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