Product Overview
Our Tungsten Oxide (WO3) nanoparticles, with an average particle size of 80nm, are engineered for high performance across a range of applications. Tungsten oxide is known for its unique electrochromic, catalytic, and photochromic properties. These nanoparticles are particularly effective in applications requiring sensitive optical properties and high surface area reactivity. Their small size enhances their usability in electronics, energy storage and generation, and as catalysts in various chemical reactions.
Key factor
- Nanoscale Particle Size: 80 nm for high surface area and reactivity.
- High Purity: 99.9% to ensure superior performance in sensitive applications.
- Physical Form: Available as a finely milled powder, facilitating easy integration into various formulations.
- Packaging Flexibility: Offered in quantities from 1 gram to 100 grams, accommodating both small-scale experiments and larger industrial needs.
- Consistent Quality: Manufactured under strict conditions to maintain uniformity across batches.
Applications
- Catalysis: Enhances chemical reactions in industrial processes.
- Optical Devices: Crucial in the production of smart windows and display technologies.
- Electronics: Used in the development of sensors and transistors.
- Energy Storage: Improves the efficiency of lithium-ion batteries.
- Environmental Remediation: Acts as a photocatalyst in water and air purification technologies.
Advantages
- Enhanced Durability: Offers exceptional stability under various operational conditions.
- Improved Efficiency: Increases the effectiveness of devices and reactions.
- Versatile Use: Applicable in multiple high-tech industries.
- Eco-friendly: Supports sustainable manufacturing and application.
- Technical Support: Hiyka provides expert guidance for application development.
Why HIYKA
Opting for Hiyka means selecting a leader in nanotechnology that is committed to quality, innovation, and customer satisfaction. Their products are designed to push the boundaries of what is possible in modern industry and research.