其中,该无机薄膜基本上仅沉积在没有沉积抑制剂材料的基板的选择区域中。
The thin film is substantially deposited only in the selected areas of the substrate not having the deposition inhibitor material.
现代常用的介质薄膜种类很多,按其成分可分为无机薄膜、有机薄膜和复合薄膜三类。
There are many kinds of the modern dielectric thin films in common use, which are classified according to their compositions as three: inorganic, organic and combined.
本发明的顶出光电极可以广泛应用于无机薄膜和半导体发光,以及光电器件和光探测器等方面。
The inventive ejection optical electrode can be widely used in inorganic film and semi-conductor to light, and the photoelectric device and optical detector.
简要回顾了国内外近年来无机薄膜、复合薄膜、稀土配合物在工艺、合成、性能、机理等方面的研究情况。
The developments of inorganic films, organic-inorganic hybrid films, rare earth chromophore are reviewed with the emphasis on preparation methods, synthesis, properties and the mechanism.
由于无机薄膜EL缺乏高亮度蓝基色成分以及驱动电压是1 0 0V左右的交流,难于制成低压彩色超薄显示器;
Because inorganic thin film EL has no blue color component and must work in alternating current with high voltage up to 100V, fabrication of color super-thin displays will be difficult;
无机涂层有电镀、转化层、热喷涂、热浸渍、熔炉熔融、或在材料表面涂上薄膜、玻璃、陶瓷。
The inorganic coatings perform electroplatings, conversion coatings, thermal sprayings, hot dippings, furnace fusings, or coat thin films, glass, ceramics on the surfaces of the materials.
OIS经成型和干燥后即可方便地形成耐溶剂性的有机无机杂化高分子材料,如透明薄膜和高弹纤维。
The OIS, after molding and drying, gives easily transparent, solvent resistant membrane and high elastic fiber, those are actually the organic inorganic hybrid polymers.
用热蒸发和磁控溅射的物理镀膜方法和溶胶凝胶化学涂布的方法相结合制备了有机和无机复合纳米光学变色薄膜。
Physical method, including thermal evaporation and magnetic sputtering, and chemical coating method are applied to prepare organic-inorganic composite chromotropic film.
以传统的无机氧化物和导电高分子材料制备的导电薄膜虽然电学性能优良,但综合性能不甚理想。
The traditional inorganic oxide film and conductive polymer film both have high conductivity, but their comprehensive property is not quite well.
介绍了几种用溶胶凝胶法制备ito薄膜的工艺方法,用其中一种无机的方法成功制备了ITO透明导电膜。
Several methods of the preparation of ITO thin film with sol-gel technique were introduced. The ITO thin films were gotten by the inorganic method.
本发明涉及一种石墨烯与无机材料形成的多层薄膜材料及其制备方法。
The invention relates to a multilayer film material formed by graphene and inorganic material and a preparation method thereof.
通过有机-无机杂化的透明导电薄膜能够借助各组成材料特性的互补作用使复合材料具有出色的综合性能。
The organic-inorganic transparent and conductive films can take the advantages of every component and enable the film exhibit excellent comprehensive property.
介绍了几种用溶胶凝胶法制备ito薄膜的工艺方法,用其中一种无机的方法成功制备了ITO透明导电膜。
Several methods of the preparation of ITO thin film with sol-gel technique were introduced.
对比无机气凝胶薄膜,提出了新的可能的制备方法。
In contrast with the inorganic aerogel films, a new possible method is put forward to produce the carbon aerogel films.
对比无机气凝胶薄膜,提出了新的可能的制备方法。
In contrast with the inorganic aerogel films, a new possible method is put forward to produce the carbon aerogel films.
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