Home » Lacquer Thinner Carbon nanotubes (Purity: 99.9%, OPS: 20nm)
|Product||Lacquer Thinner Carbon nanotubes|
|Appearance||Colorless liquid (light Grey)|
|Concentration Ag (ppm)||200ppm|
|Suggestion Application||Dilute it into organic Solvent as 100-Concentration|
|Quality Control||Each lot of Lacquer Thinner Carbon nanotubes was tested successfully.|
|Main Inspect Verifier||Manager QC|
Lacquer Thinner Carbon nanotubes have attracted considerable attention among materials scientists because of their unique physical properties and their potential for applications in field emission displays (FEDs). The use of a screen-printing process for preparing, fully-sealed FED prototypes with carbon paste emitters has recently been demonstrated.
Lacquer Thinner Carbon nanotubes on field emission properties were investigated with respect to high-efficient carbon paste -cathode applications. Carbon paste films were prepared via a screen-printing process using the Carbon paste. The carbon paste cathode by an electron tunneling effect was increased with increasing ratio of the dielectric glass-frit fraction in the carbon paste. The reason for the larger emission current from the carbon paste cathode containing insulating binder materials is due to the increased effective height of carbons which protrude over the film in the cathode electrode, which effects the field enhancement factor.
Lacquer Thinner Carbon nanotubes is developed primarily for field emission devices. It can be easily applied on glass substrates using standard screen/tensile printing techniques. The Carbon paste has excellent field emission properties including low turn on field and outstanding uniformity.
Lacquer Thinner Carbon nanotubes are fabricated by mixing carbon powder with mineral oil. Carbon paste electrodes have been obtained by mixing carbon powder with deionized water, bromoform or mineral oil. For biosensing Biosensors have also been fabricated by modifying the classical with carbon paste and subsequently immobilizing enzymes.
We used Lacquer Thinner Carbon nanotubes for fabricated diode application to enhance the mechanical and thermal strength in batteries. Fortunately, we found very excellent desired results.
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