Description
Specifications Table
Product Name – Indium tin oxide, 99.99% (metals basis)
Quantity/Pack Size – 100g, 25g, 5g
Form – Powder
Grade – 99.99% (metals basis)
Application – Transparent conductive films, optoelectronics, touchscreens
Product Overview
Indium tin oxide (ITO) with 99.99% purity is a high-performance material widely used in transparent conductive coatings due to its exceptional combination of electrical conductivity and optical transparency. This lab-grade powder is synthesized under controlled conditions to ensure minimal impurities, making it ideal for applications requiring precise electrical and optical properties. The powder form allows for easy dispersion in solvents or direct deposition techniques like sputtering or evaporation. Its high metal basis purity guarantees consistent performance in thin-film applications, where even minor impurities can compromise functionality. The material exhibits low resistivity and high visible light transmittance, making it a preferred choice for optoelectronic devices. Each batch undergoes rigorous testing to confirm its purity and performance, ensuring reliability in research and development settings. The fine particle size distribution enhances uniformity in film deposition, reducing defects and improving overall device efficiency.
FAQs
1. What is the particle size range of this indium tin oxide powder?
The powder typically has a sub-micron particle size distribution, optimized for uniform thin-film deposition.
2. Can this ITO powder be used for sputtering targets?
Yes, the high purity and fine particle size make it suitable for manufacturing sputtering targets.
3. How should this material be stored to maintain its purity?
Store in a cool, dry place in a tightly sealed container to prevent oxidation and moisture absorption.
4. Is this ITO compatible with organic solvents for ink formulations?
Yes, it can be dispersed in common organic solvents like ethanol or isopropanol for inkjet printing applications.
5. What alternatives exist if I need higher transparency in the visible spectrum?
Fluorine-doped tin oxide (FTO) or graphene-based materials can be considered for specific transparency requirements.
