规格或纯度 | 表面电阻率8-12Ω/sq |
---|---|
英文名称 | Indium tin oxide coated glass slide, square |
别名 | ITO, ITO 涂覆的正方形玻片 |
英文别名 | ITO coated slide, square, ITO |
产品介绍 |
一般描述 氧化铟锡(ITO)广泛用作透明导电氧化物。其主要特征是导电性、光学透明性,并且易于沉积成薄膜。 衬底:未抛光浮法玻璃,SiO 2 钝化(200-300?) 应用 ITO玻璃载玻片可用作通过聚合物半导体与有机发光二极体(OLED)混合材料制备聚合物太阳能电池的基板。ITO基板也可用于通过印刷工具蚀刻基板表面来对透明加热器阵列进行设计。ITO盖玻片可用于封闭的数字微流体装置,并可用作显示器和其他光电装置中的透明电极。已报道的一些其他可能用途包括: 在ITO覆盖的玻璃基底上制备真黑素样品。 用于光束偏转(OBD)传感的液体电池的界面窗口包含一个20nm厚的氧化铟锡薄膜。 在ITO导电玻璃上形成介孔TiO 2 薄膜。 物理属性 ITO 涂层厚度为 1,200-1,600? General Description substrate: unpolished float glass, SiO 2 passivated (200-300 ?) Indium tin oxide (ITO) is widely used as transparent conducting oxides. Its major characteristics are electrical conductivity, optical transparency and the ease to be deposited as films. Application ITO glass slides were used as a substrate for fabricating polymer solar cells based on blends of polymeric semiconductors and organic light emitting diodes (OLEDS). ITO substrates can also be used to design transparent heater arrays by etching the surface of the substrate by a printing tool. ITO cover slides may be used for closed digital microfluidic devices and as transparent electrodes in display and other optoelectronic devices.Some other probable uses that has been reported are: Eumelanin samples prepared on ITO covered glass substrates. Interface windows of the liquid cell for optical beam deflection (OBD) sensing contains a 20-nm-thick indium tin oxide film. Mesoporous TiO 2 films were formed on ITO conductive glasses.Physical properties': 'Thickness of ITO coating is 1,200-1,600 ? |
分子式 |
In2O3/SnO2 |
---|---|
PubChem CID | 254778277 |
熔点 | 1910 °C |
---|
WGK Germany | 3 |
---|---|
个人防护装备 | dust mask type N95 (US), Eyeshields, Gloves |
1. Andreas Herrmann,Nicolas Giuseppone,Jean-Marie Lehn. (2008-12-17) Electric-field triggered controlled release of bioactive volatiles from imine-based liquid crystalline phases.. Chemistry (Weinheim an der Bergstrasse, Germany), 15 ((1)): (117-124). [PMID:19072793] |
2. Patrizia Borghetti,Andrea Goldoni,Carla Castellarin-Cudia,Loredana Casalis,Fabian Herberg,Luca Floreano,Albano Cossaro,Alberto Verdini,Ralph Gebauer,Prasenjit Ghosh,Luigi Sangaletti. (2010-11-17) Effects of potassium on the supramolecular structure and electronic properties of eumelanin thin films.. Langmuir : the ACS journal of surfaces and colloids, 26 ((24)): (19007-19013). [PMID:21077619] |
3. Hanaul Noh,Alfredo J Diaz,Santiago D Solares. (2017-04-07) Analysis and modification of defective surface aggregates on PCDTBT:PCBM solar cell blends using combined Kelvin probe, conductive and bimodal atomic force microscopy.. Beilstein journal of nanotechnology, 8 (): (579-589). [PMID:28382247] |
4. Yongjae Jo,Junhwan Kwon,Moonseok Kim,Wonshik Choi,Myunghwan Choi. (2018-11-06) Microsphere-based interferometric optical probe.. Nature communications, 9 ((1)): (4577-4577). [PMID:30385746] |
5. Keith A Brown,Daniel J Eichelsdoerfer,Wooyoung Shim,Boris Rasin,Boya Radha,Xing Liao,Abrin L Schmucker,Guoliang Liu,Chad A Mirkin. (2013-07-19) A cantilever-free approach to dot-matrix nanoprinting.. Proceedings of the National Academy of Sciences of the United States of America, 110 ((32)): (12921-12924). [PMID:23861495] |