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lxw1987金虫 (小有名气)
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求助英文翻译摘要
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Our particle ordering technique of several nanoparticles was applied to anti-reflection coating films, which consist of a double layer structure formed by spin-coating, for commercial computer displays. These double-layered coating films are composed of ordered conductive nanoparticles such as antimony-doped tin oxides (ATO), indium-tin oxides (ITO) and noble metals in the 1st layer and silica matrix in the 2nd layer. The sheet resistance of the double-layered conductive anti-reflection films can be controlled from 103 Ohm/sq. to 107 Ohm/sq. by varying ingredient of the 1st layer. And by forming nanoparticles ordered 1st layer in the double-layered coating film, we were successful in realizing a low reflectance in any visible wavelength region (a wide reflection curve), due to an inclining refractive index structure. Furthermore, in the 2nd layer composed of 50 nm porous silica nanoparticles with a unique core–shell structure and a silica matrix, which indicates a lower refractive index, the reflectance is significantly reduced in any visible wavelength region. ps:不需要机器翻译,语言书面点 |
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lxw1987
金虫 (小有名气)
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- 专业: 橡胶及弹性体
3楼2010-06-10 10:20:05
2楼2010-06-09 14:42:35
noleg
金虫 (小有名气)
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wypward:谢谢参与 2010-06-16 21:53:30
lxw1987(金币+3, 翻译EPI+1):谢谢 2010-06-18 11:37:05
lxw1987(金币+3, 翻译EPI+1):谢谢 2010-06-18 11:37:05
| 我们的多种纳米微粒排序技术已应用于商用电子计算机抗反射涂层薄膜,该薄膜包含由旋涂法形成的双层结构。这些双层涂层薄膜的第一层是由有序导电纳米微粒如锑掺杂的锡氧化物(ATO)、铟-锡氧化物(ITO)、以及贵金属形成所组成,第二层是硅胶基质。双层导电抗反射薄膜的薄层电阻可通过改变第一层的组分而被控制在103 Ohm/sq. ~107 Ohm/sq.。通过在双层涂层薄膜的第一层中形成有序排列的纳米微粒,我们成功地实现了在任何可见光波长范围内的低反射(宽反射曲线),这应归功于其倾向折射率的结构。此外,由50nm厚具有独特核-壳结构的多孔硅胶微粒和低折射率的硅胶基质组成的第二层,其折射率在任何可见光波长范围内显著减小。 |
4楼2010-06-16 21:20:43