Home » Indium Tin Oxide Nanoparticles (ITO, In2O3:SnO2=95:5, Purity: 99.9%, APS: <70nm)
|Product||Indium Tin Oxide Nanoparticles|
|Molecular Weight||428.34 g/mol||Confirm|
|Melting Point||1526-1926 °C||Confirm|
|Solubility||Insoluble in water||Confirm|
|Quality Control||Each lot of Indium Tin Oxide Nanoparticles was tested successfully.|
|Main Inspect Verifier||Manager QC|
Indium tin oxide nanoparticles (ITO) is an optoelectronic material that is applied widely in both research and industry. Indium tin oxide nanoparticles is a ternary composition of indium, tin and oxygen in varying proportions. Indium tin oxide nanoparticles are one of the most widely used transparent conducting oxides because of its two main properties: its electrical conductivity and optical transparency, as well as the ease with which it can be deposited as a thin film.
Indium tin oxide nanoparticles (ITO) are also used for various optical coatings, infrared-reflecting coatings for automotive, and sodium vapor lamp glasses. Other uses of Indium tin oxide nanoparticles include gas sensors, antireflection coatings, electrowetting on dielectrics, and Bragg reflectors for VCSEL lasers. Indium tin oxide nanoparticles are also used as the IR reflector for low-e window panes.
Indium Tin Oxide Nanoparticles are used in high-end electronics if you need unique conductivity and transparency. In battery inhibitors Indium Tin Oxide nanoparticles are also used. There are some researches about using Indium Tin Oxide in numerous touch screen technologies. In the energy sector Indium Tin Oxide nanopowder play an important role for photovoltaic solar cells. Indium Tin oxide nanoparticles can be used in transparent electric -conductive materials such as conductive glue.
Indium Tin Oxide Nanoparticles used in many electronic devices. Thin films of indium tin oxide are most commonly deposited on surfaces by physical vapor deposition. Often used is electron beam evaporation, or a range of sputter deposition techniques. As with all transparent conducting films, a compromise must be made between conductivity and transparency, since increasing the thickness and increasing the concentration of charge carriers increases the material's conductivity, but decreases its transparency.
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