透明电极

铟锡氧化物（ITO）是制造透明电极的重要材料。

ITO is important material of making the transparent electrode .

无氧溅射方法制备OLED的ITO透明电极

Fabrication of OLED ITO Transparent Electrode with Oxygen-free Sputtering Method

在PDP显示屏生产环节中，透明电极、辅助电极、选址电极等电极的制作都用到丝网印刷设备。

In the PDP production processes , the transparent electrode , auxiliary electrode and address electrode is manufactured by screen printing .

这些优异的性能使其有望替代掺锡的氧化铟（ITO）材料成为太阳电池中首选的透明电极材料。

These excellent properties make it the best potential substitute for the Sn-doped In2O3 ( ITO ) as a transparent electrode for solar cells .

透明电极ITO导电性对ACTFEL显示器的尺寸限制及其改善方法

Size limitation of actfel ′ s caused by transparent ITO conductor and its improvement

氧化铟锡（ITO）是一种宽禁带、高掺杂的n型半导体，广泛应用于各种显示屏幕的透明电极中。

Indium tin oxide ( ITO ), which is a kind of wide band gap and highly doped n-type semiconductor , is widely used as transparent electrode of various display screen .

整个器件结构为陶瓷基板／内电极／厚膜绝缘层／发光层/薄膜绝缘层／ITO透明电极。

The whole structure of the device is ceramic substrate / internal electrodes / thick dielectric film / light-emitting layer / thin dielectric film / ITO .

氧化铟锡（ITO）是一种锡掺杂的半导体材料，铟消费量的80%以上用于铟锡氧化物透明电极。

Indium tin oxide ( ITO ) is a tin-doped semiconductor material . ITO material has consumed more than 80 % of the indium produced over the world .

随着液晶显示的发展，用于透明电极的铟锡氧化物（ITO）薄膜的需要量急剧增加。

Along with the development of liquid crystal display ( LCD ), the requirements of indium tin oxide ( ITO ) film used for transparent electrodes has increased dramatically .

其中，ITO（Sn掺杂In2O3）薄膜因其具有较好的光电性能而广泛应用于透明电极。

ITO ( Sn doped In2O3 ) films possess the better optical and electrical properties , which make them have wide applications as the transparent electrodes .

其中SnO2（TO）和In2O3：Sn（ITO）薄膜作为透明电极在平板显示和太阳能电池等领域得到实际应用。

Among them , SnO_2 ( TO ) and In_2O_3 : Sn ( ITO ) films have been widely used in panel display and solar cell as transparent electrode .

本论文针对OLED器件透明电极的要求，对ITO膜的低温制备工艺进行了深入的研究。

To meet the demands of transparent electrodes of OLED devices , ITO films were deposited at low substrate temperature , and their performances were discussed in this paper .

ZnO是一种新型的Ⅱ-Ⅵ族直接宽带隙氧化物半导体材料，具有大的载流子浓度和光学禁带宽度，在太阳能电池、平板显示器的透明电极等领域被广泛的应用。

At present , ZnO , new-style II-VI direct oxide semiconductor thin film with wideband gap energy and high carrier concentration , is widely applied in solar cell , transparent electrodes of flat panel display and some other areas .

OLED显示器件经常采用ITO膜作为有机发光的出射面和透明电极，要求ITO膜可见光透过率、导电性、表面平整度以及功函数都很好。

Because of better conductivity , higher transparency , smoother surface and higher work function , ITO ( Indium tin oxide ) films are used as the transparent electrodes which are the emitting side in OLED .

其中，二氧化锡（Sn02）及其过渡金属（TM）掺杂在光伏器件，气敏传感器，氧化物稀磁半导体，透明电极等方面己激起人们的研究兴趣。

Among them , tin oxide and transition metal doping has have received increasing interest in photovoltaic devices , gas sensors , oxide dilute magnetic semiconductor , transparent electrodes .

利用带有透明电极与可侧向观察的DBD装置对其辐射特性进行了研究。

( No. : 95-06-02-19 ) The paper is divided into three parts : 1 . The radiation of DBD plasma is studied at atmospheric pressure in its device with a transparent electrode and an observed side section .

ZnO薄膜具有优良的光学、电学性能，在许多领域具有现实及潜在的应用，如表面声波器件、透明电极，紫外光探测器、发光二极管、压电器件、气敏传感器及平面波导等。

ZnO films have many realized and potential applications in many fields , such as surface acoustic wave devices , transparent electrodes , ultraviolet photodetectors , light emitting diodes , piezoelectric devices , gas sensors and planar optical waveguides , etc , due to their excellent optical and piezoelectric properties .

为实现AZO和GZO薄膜在透明电极领域的实际应用，还有许多问题亟待解决，薄膜的热稳定性是关键问题之一。

For the practical use of AZO and GZO films as transparent electrodes in a wide range of applications , there are some critical issues to be resolved ; one of them is the thermal stability .

以ITO为透明电极，NPB为空穴传输层，Alq3为发光层，制备出ITO/NPB/Alq3/LiF/Al结构的有机电致发光显示器。

Organic light-emitting device ( OLED ) based on Alq_3 emitting layer , ITO transparent anode and NPB hole transport layer were fabricated . The structure was ITO / NPB / Alq_3 / LiF / Al .

为了提高陶瓷厚膜无机电致发光显示器的亮度，采用陶瓷基片/内电极/陶瓷厚膜/发光层/上绝缘层/透明电极的器件结构系统研究了ZnS∶Mn发光层的制备工艺。

Based on the structure of ceramic substrate / internal electrodes / thick dielectric film / light-emitting layer / thin dielectric film / ITO , the fabrication process of ZnS : Mn phosphor layer has been investigated to improve the brightness of inorganic thick dielectric electroluminescent ( TDEL ) devices .

油膜光阀透明电极的研究

Research of a transparent electrode of the oil film light valve

金属／介质透明电极优化设计

The optimizing design of metal / dielectric transparent electrode

带透明电极可变形反射镜的研制

Fabrication of Deformable Mirror with Transparent Electrode

透明电极薄膜的制备及其电阻率测量普通物理实验

The general physics experiment : making and measurement of the resistivity of transparent electrode film

透明电极检测系统的研制

Development of the Transparent Electrode Testing System

一种新的双光系统透明电极电池

A new transparent photo-galvano - voltaic cell

介绍一套用于彩色等离子体显示器的透明电极检测系统。

A set of transparent electrode testing system used for color PDP will be introduced .

在这种情况下，作为透明电极的薄膜的电学性能和光学性能必须保持稳定。

Under such environments , the electrical and optical properties of the films must be maintained .

此外，论文研究了利用在氧化镓中掺锡制备紫外透明电极的可能性。

Furthermore , the probably of the tin doped Ga_2O_3 films used as ultraviolet transparent electrodes was studied .

适用于平面显示器透明电极的ZnS/Ag/ZnS纳米多层薄膜

ZnS / Ag / ZnS ( D / M / D ) Nano-Multilayers for Transparent Electrodes in Flat Displayer Application