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Titanium Oxide – Nanowires

  • Length full range: 0,5-100 µm
  • Diameter: 50-100 nm
  • Phase: anatase Dry powder
  • Pack Size : 100 mg, 500 mg, 1 gm
SKU: RN-PL-TiOW50 Category:

Product Overview

Hiyka's Titanium Oxide Nanowires represent a breakthrough in nanomaterial technology, engineered to deliver exceptional performance across environmental, energy, and electronic applications. Leveraging the unique properties of titanium oxide at the nanoscale, these nanowires offer superior photocatalytic efficiency, enhanced electrical conductivity, and significant optical advantages. Ideal for catalytic degradation of pollutants, solar energy harvesting, and electronic device fabrication, our titanium oxide nanowires are designed to meet the rigorous demands of both research and industry, enabling innovation and environmental sustainability.

Key factor

  • Superior Photocatalytic Activity: Exhibits exceptional photocatalytic properties, ideal for air and water purification applications by degrading organic pollutants under UV light.
  • Enhanced Electrical Properties: Offers improved electrical conductivity, making them suitable for use in photovoltaic cells and electronic components.
  • Optical Advantages: Utilizes unique optical properties, including UV absorption and photoluminescence, for advanced optical devices and sensors.
  • High Surface Area: The nanowire morphology provides a high surface area to volume ratio, enhancing catalytic efficiency and reaction rates.
  • Stability and Durability: Demonstrates excellent chemical stability and durability, suitable for long-term applications in harsh environmental conditions.

Applications

  • Environmental Remediation: Utilized in the catalytic degradation of pollutants in air and water, contributing to cleaner environments and sustainable living.
  • Solar Energy Conversion: Integral to the development of high-efficiency dye-sensitized solar cells, enhancing light absorption and energy conversion rates.
  • Advanced Electronics: Applied in the fabrication of electronic devices, sensors, and transistors, where their unique electrical and optical properties are advantageous.
  • Photocatalytic Coatings: Coatings for buildings and surfaces that actively break down pollutants and self-clean under sunlight, promoting urban sustainability.
  • Biomedical Research: Investigated for potential applications in drug delivery and phototherapy, leveraging their biocompatibility and optical properties.

Advantages

  • High Performance: Delivers cutting-edge performance in photocatalysis, energy conversion, and electronics, driving forward technological innovation.
  • Eco-Friendly Solutions: Supports environmental sustainability through pollution degradation and energy-efficient applications.
  • Versatile Integration: Compatible with various substrates and manufacturing processes, enabling broad application potential across industries.
  • Innovative Material: Opens new avenues for research and development, providing a platform for groundbreaking discoveries in nanotechnology.
  • Scalable Production: Ready for large-scale manufacturing to meet industrial demands, ensuring consistent quality and performance across applications.

References 

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