For research and development scientists, the purity and precise specifications of chemical reagents are paramount to achieving accurate and reproducible results. Titanium(IV) Oxide (CAS: 1317-70-0), particularly in its high-purity forms, is a valuable compound for various experimental applications. As a dedicated supplier of high-quality chemicals, we provide researchers with the critical material they need. Let's examine the key specifications and research benefits of high-purity Titanium(IV) Oxide.

Key Specifications for Research Grade Titanium(IV) Oxide

When scientists look to buy Titanium(IV) Oxide for R&D, they need detailed technical information. Our high-purity Titanium(IV) Oxide typically features:

  • CAS Number: 1317-70-0
  • Molecular Formula: O2Ti
  • Molecular Weight: 79.87 g/mol
  • Purity: Typically 99.5% minimum, with trace metal analysis available upon request.
  • Appearance: Fine white powder (often anatase or rutile crystalline form).
  • Melting Point: Approximately 1840°C, indicating high thermal stability.
  • Boiling Point: Around 2900°C.
  • Density: Approximately 3.9 g/cm³.

These precise specifications ensure that researchers can rely on the material's consistent performance in laboratory settings. Understanding these details is vital for experimental design and success.

Benefits for Research and Development Applications

High-purity Titanium(IV) Oxide offers significant advantages in several R&D areas:

1. Photocatalysis and Environmental Science: Researchers utilize TiO2 for its exceptional photocatalytic activity. In the presence of UV light, it can degrade organic pollutants, making it ideal for studies on water purification, air filtration, and surface sterilization technologies. The consistent purity of our material ensures reliable photocatalytic efficiency.

2. Materials Science and Nanotechnology: As a precursor for advanced materials, TiO2 is used in the synthesis of novel composites, ceramics, and thin films. Its application in research for solar cells, sensors, and energy storage devices is continuously expanding. For these applications, particle size control and high purity are crucial for achieving desired material properties.

3. Chemical Synthesis and Catalysis: Titanium(IV) Oxide serves as a catalyst or catalyst support in various organic synthesis reactions. Its inert nature and stability make it suitable for high-temperature or demanding chemical environments. Researchers can confidently use our product to explore new catalytic pathways.

4. Biomedical Research: In specific biomedical applications, such as drug delivery systems or antimicrobial coatings, the biocompatibility and controlled release properties of TiO2 are being investigated. High purity is essential to avoid interference from impurities in biological assays.

Procuring High-Purity Titanium(IV) Oxide for Your Lab

When seeking to buy Titanium(IV) Oxide for research purposes, partnering with a reliable manufacturer and supplier is essential. We understand the critical nature of R&D and provide detailed product specifications and documentation. We offer competitive pricing for research quantities and are happy to provide free samples for your evaluation. Our efficient worldwide delivery ensures that your project timelines are met.

Conclusion

High-purity Titanium(IV) Oxide is a fundamental material for a wide spectrum of scientific inquiry. Its well-defined properties and versatility make it an invaluable asset in photocatalysis, materials science, chemical synthesis, and beyond. We are dedicated to supporting the scientific community by supplying top-quality Titanium(IV) Oxide. Contact us today to discuss your research needs, obtain a quote, and secure a sample for your next groundbreaking experiment.