Product Overview
Hiyka's TiO2 Nanorods in a 1% Aqueous Solution (Anatase) represent a breakthrough in nanomaterial technology, offering superior photocatalytic efficiency, UV protection, and stability. These nanorods are meticulously engineered in the anatase phase, which is known for its excellent photocatalytic activity and ability to degrade organic pollutants under UV light. Ideal for environmental remediation, solar energy conversion, and advanced coatings, our TiO2 Nanorods are dispersed in a 1% aqueous solution for easy application and integration into various formulations and composites.
Key factor
- High Photocatalytic Activity: The anatase form of TiO2 nanorods exhibits outstanding photocatalytic performance, ideal for breaking down pollutants and organic dyes.
- Effective UV Absorption: Provides excellent UV protection, making it suitable for sunscreens, paints, and coatings that require UV-blocking capabilities.
- Stable Dispersion: Supplied in a 1% aqueous solution, ensuring uniform dispersion and easy integration into various media and composites.
- Environmental Remediation: Effective in water and air purification systems for the degradation of pollutants, contributing to cleaner environments.
- Energy Conversion: Enhances the efficiency of solar cells and photocatalytic devices, harnessing solar energy for clean power generation.
Applications
- Environmental Remediation: Utilized in photocatalytic systems for water and air purification, effectively degrading harmful pollutants and organic compounds.
- Solar Cells: Incorporated into the fabrication of dye-sensitized and perovskite solar cells, improving light absorption and energy conversion efficiencies.
- Photocatalytic Coatings: Applied in self-cleaning surfaces, anti-fogging coatings, and antimicrobial treatments for various substrates.
- UV Protective Formulations: Essential component in sunscreens, paints, and plastics requiring enhanced UV-blocking capabilities to protect against harmful radiation.
- Research and Development: Serves as a valuable material for scientific studies focused on photocatalysis, nanotechnology, and sustainable energy solutions.
Advantages
- Advanced Photocatalytic Efficiency: Delivers exceptional performance in applications requiring the degradation of pollutants and conversion of solar energy.
- Ease of Use: The aqueous dispersion facilitates straightforward application and incorporation into different matrices and formulations.
- Versatility: Suitable for a wide array of industrial, environmental, and research applications, offering broad utility across sectors.
- Eco-Friendly: Supports green technology initiatives by enabling clean energy generation and environmental purification.
- High-Quality Standard: Produced with a focus on purity, consistency, and performance, ensuring reliable results across applications.
References
Aligned TiO2 Nanorods and Nanowalls, JJ Wu, CC Yu - The Journal of Physical Chemistry B, 2004 - ACS Publications
Novel Preparation Method of TiO2-Nanorod-Based Photoelectrodes for Dye-Sensitized Solar Cells with Improved Light-Harvesting Efficiency, L De Marco, M Manca, R Giannuzzi… - The Journal of …, 2010 - ACS Publications
TiO2 nanorods as additive to TiO2 film for improvement in the performance of dye-sensitized solar cells, JH Yoon, SR Jang, R Vittal, J Lee, KJ Kim - Journal of Photochemistry and …, 2006 - Elsevier