Description
Specifications Table
Product Name – Indium(I) bromide, Puratronic™, 99.999% (metals basis) Quantity/Pack Size – 5g Form – Solid Grade – Puratronic™ (99.999% metals basis) Application – High-purity chemical synthesis, semiconductor research
Product Overview
Indium(I) bromide, Puratronic™ grade, delivers 99.999% purity (metals basis), ensuring ultra-low impurity levels for demanding laboratory applications. This high-purity compound is processed under stringent conditions to eliminate trace contaminants, making it suitable for advanced chemical synthesis, semiconductor research, and specialized material development. The Puratronic™ designation guarantees consistent batch-to-batch reliability, with rigorous quality control measures to maintain its exceptional purity profile. Its solid form allows for precise handling and dosage, while the 5g pack size provides an optimal balance between usability and storage efficiency. The compound’s stability under controlled conditions ensures long-term performance without degradation. Whether used in thin-film deposition, dopant applications, or as a precursor in high-tech material fabrication, this Indium(I) bromide variant meets the exacting standards of modern research environments. The absence of metallic impurities (≤10 ppm) further enhances its suitability for sensitive analytical and industrial processes.
FAQs
1. What is the significance of the Puratronic™ grade in Indium(I) bromide?
The Puratronic™ grade indicates a minimum 99.999% purity (metals basis), ensuring trace impurities are reduced to parts-per-million levels. This grade is critical for applications where even minor contaminants could compromise results, such as semiconductor manufacturing or high-precision synthesis. The certification process involves advanced purification techniques and rigorous testing to validate the stated purity.
2. Can this compound be used directly in vapor deposition processes?
Yes, Indium(I) bromide in Puratronic™ grade is compatible with vapor deposition techniques due to its high purity and controlled impurity profile. The low moisture and oxygen content minimize unwanted reactions during deposition, making it suitable for thin-film applications in electronics and optoelectronics. However, process parameters like temperature and pressure should be optimized based on specific equipment and desired film properties.
3. What are the recommended storage conditions to maintain its purity?
Store the compound in a tightly sealed container under an inert atmosphere (e.g., argon or nitrogen) to prevent oxidation and moisture absorption. Keep it in a cool, dry environment (15–25°C) away from direct light and incompatible materials like strong oxidizers. Avoid prolonged exposure to air during handling, as Indium(I) bromide can hydrolyze, leading to purity degradation over time.
4. Are there any known compatibility issues with common lab solvents?
Indium(I) bromide is generally stable in non-polar solvents like toluene or hexane but may react with protic solvents (e.g., water, alcohols) to form hydrogen bromide. In polar aprotic solvents (e.g., DMSO, DMF), it can dissolve but may undergo slow decomposition. Always verify compatibility with your specific solvent system and application requirements before use.
5. How does this product compare to lower-purity Indium(I) bromide variants?
Lower-purity variants (e.g., 99% or 99.9%) contain higher levels of metallic and non-metallic impurities, which can introduce inconsistencies in reactions or final product performance. The Puratronic™ 99.999% grade eliminates these risks, offering tighter control over experimental outcomes, especially in trace-analysis or high-sensitivity applications. The cost difference is justified by reduced reprocessing needs and higher yield reliability.
