conductive glass
英 [kənˈdʌktɪv ɡlɑːs]
美 [kənˈdʌktɪv ɡlæs]
导电玻璃
双语例句
- The uniform transparent porous nanocrystalline TiO_2 films were prepared on ITO conductive glass and quartz glass substrates by sol-gel method.
采用溶胶-凝胶法于ITO导电玻璃和石英玻璃基底上制备了均匀透明的TiO2多孔纳米薄膜。 - Automatical Control of ITO Transparent conductive Glass Production
用C200H可编程控制器实现ITO透明导电玻璃生产线的自动控制 - Study on Property of Conductive Glass with SnO_2 Film
SnO2膜导电玻璃性能的研究 - The results of the experiment indicate that: ( 1) The combining strength is higher with the conductive slurry on the glass;
结果表明:在玻璃表面涂敷导电泥浆后进行电镀镀层结合强度较高,且设备简单; - An important application of conductive glass is used as electrolytic of solid state cell.
玻璃导电材料的重要应用之一是作为全固态电池的电解质。 - Selecting the Best Silane Coupling Agent for Pretreating Conductive Glass Fiber
硅烷偶联剂在导电玻璃纤维制备中的应用 - The results show that the pressure stress of ITO layer is the major factor that influences the warp of ITO conductive coating thin glass, the warp of ITO conductive coating glass can be reduced obviously at appropriate distribution of coating temperature.
结果表明,薄基片ITO玻璃的翘曲度主要是在镀膜时ITO膜层压应力大引起的,选择合适的成膜温度分布可明显减小ITO玻璃的翘曲度。 - The defrosting experimental study on the transparent and conductive glass with ITO film
ITO透明导电玻璃的除霜试验研究 - The results show that the higher pressure stress of ITO layer is the main factors causing the warp of ITO conductive coating thin glass, and the polycrystalline ITO film with low pressure stress can be fabricated by higher temperature annealing amorphous ITO film deposited at room temperature.
实验发现,ITO膜层的很高的压应力是导致导电膜玻璃翘曲的直接原因;采用室温沉积非晶ITO膜,然后经高温热退火可获得低膜压应力多晶相ITO膜。 - Study on conductive glass with SnO_2 film by spray method
喷镀法制备SnO2膜导电玻璃的研究 - The influence of chemical electroplating process on the properties of conductive glass fibre was discussed.
讨论了化学镀的反应条件对导电玻璃纤维性能的影响。 - Preparation of conductive glass fibre as filler of coatings
涂料用导电玻璃纤维填料的制备 - Effects of conductive and glass phases as well as additives on surface resistivity, it's temperature coefficient ( TCR) and stability of multilayer wiring dielectric surface are researched and mechanism of resistance floatation due to interaction between dielectric and resistive layers is analyzed.
研究了导电相、玻璃相和添加剂对多层布线表面电阻的方阻、温度系数和稳定性的影响,分析了介质层与电阻层之间的相互作用而导致电阻阻值变化的机理。 - A conductive glass fibre has been prepared by deposition of metals on the glass fibre via chemical electroplating process, which can be used as the filler of conductive coatings.
采用化学镀方法在玻璃纤维上沉积金属镀层,制得镀金属的导电玻璃纤维,用作导电涂料的填料。 - Research is made on the warp of the raw glass substrates and the heated glass substrates, the influence of ITO layer stress on the warp of ITO conductive coating glass, and the influence of the distribution of coating temperature on the warp of ITO conductive coating glass.
研究了基片加热前、后的翘曲度和ITO膜层应力对ITO玻璃翘曲度的影响以及ITO成膜温度分布对ITO玻璃翘曲度的影响。 - Through electrophoresis method, oriented bacteriorhodopsin films are deposited on ITO conductive glass, with which and a copper electrode, a photodetector with bacteriorhodopsin films and conductive gel sandwiched is constructed.
用电泳法在ITO导电玻璃上沉积出定向细菌视紫红质薄膜,与铜电极构成夹细菌视紫红质薄膜和导电凝胶结构的光电探测器。 - Prospect and Industrial Production of the Transparent and Conductive Glass with ITO Film
ITO膜透明导电玻璃的应用前景及工业化生产 - Results showed that the conductive performance of glass fiber with copper plating increased greatly so that the material could use as electromagnetic shield.
研究表明,玻璃纤维化学镀铜后,可提高导电性能,并用作制备电磁屏蔽材料。 - With the improvement of LCD technology, higher standards were put up regarding liquid crystals, conductive glass and other related materials.
随着国内LCD技术水平的提高,对液晶材料、导电玻璃及其它相关材料都提出了更高的要求。 - Now the platinum counter electrode on conductive glass is often prepared by different preparation methods.
目前多采用镀铂的对电极,即采用不同方法将铂镀在导电玻璃上。 - How to prepare a substrate which has a good surface-enhanced Raman scattering effect becomes a research hotspot in recent years, we use electrochemical deposition on FTO conductive glass substrate deposition of nano-silver.
制备具有良好的表面增强拉曼散射效应的基体成为近年来研究的热点,本文采用电化学沉积法,在FTO导电玻璃基底上沉积的纳米银。 - A typical DSC is a kind of sandwich structure, mainly includes: dye sensitized nano-porous titanium dioxide film on a conductive glass substrate, an organic liquid electrolyte containing a redox couple mediator ( commonly, iodide/ triiodide), and the platinum counter electrode.
典型的染料敏化太阳能电池是一种三明治结构,主要包括:负载在导电玻璃上染料敏化的纳米多孔二氧化钛光阳极,氧化/还原电解质(常用:碘/碘化钾),和铂对电极。 - The film plays a role in fixing dyes, accepting the injecting electrons that produced by dyes and transfering them to the ITO conductive glass surfaces.
TiO2薄膜作为DSSC的关键部件之一,起着固定染料、接受染料中光生电子注入并将其传递到ITO导电玻璃表面的作用。 - As one of the important wide band-gap semiconductor oxide materials, tin dioxide ( SnO2) has been widely used in many applications such as transparent conductive glass, transparent conductive nano-powder, gas sensors, and catalysts.
作为重要的宽禁带半导体氧化物材料,二氧化锡(SnO2)已经在透明导电玻璃、透明导电纳米粉体、气敏传感器和催化剂等行业广泛应用。 - Zinc oxide seed layer has been introduced as growth units in the ITO conductive glass to grow zinc oxide nanostructures in a low-temperature hydrothermal environment.
引入氧化锌种子层作为生长基元,在ITO导电玻璃上低温水热生长氧化锌纳米结构。 - Most important, it is cheaper material by depositing a layer conductive film on ordinary glass, comparing with other substrates.
最重要的方面就是在普通玻璃上沉积一层导电薄膜使之成为导电玻璃,这种材料作为衬底,其价格相对于其它衬底材料来说是较低的。 - As an n-type semiconductor material with direct and wide band gap, zinc oxide was widely used in transparent conductive glass, solar cell, flat panel display, gas sensors cell and other fields.
ZnO是一种直接宽禁带的n型半导体材料,已在透明导电玻璃、太阳能电池、平板显示器和气敏传感器等领域得到了广泛应用。 - In this paper, we prepare catalytic electrodes on the substrates of glassy carbon ( GC) and indium tin oxide ( ITO) transparent conductive glass by electrochemical deposition.
本文选用玻璃碳(GC)和氧化铟锡(ITO)透明导电玻璃为基体,采用电沉积法在其表面沉积Pt,制备催化电极,并研究制备方式对电极催化活性的影响。 - The traditional DSCs using conductive glass are heavy and easily broken, limiting the application range of the DSCs.
传统的DSC使用导电玻璃作为导电基底,而导电玻璃具有沉重易碎的缺点,限制了DSC的应用范围。