Description
Specifications Table
Product Name – Iridium, 99.9%, (trace metal basis), powder
Quantity/Pack Size – 10GR, 500MG
Form – Powder
Grade – 99.9% (trace metal basis)
Application – High-precision lab experiments, specialized research
Product Overview
This high-purity iridium powder, with a 99.9% trace metal basis, is engineered for demanding laboratory applications where precision and reliability are critical. The powder form ensures uniform dispersion and consistent performance in specialized research settings. Its ultra-pure composition minimizes impurities, making it ideal for experiments requiring high accuracy and reproducibility. The trace metal basis certification guarantees that the material meets stringent quality standards, ensuring reliable results in analytical and experimental procedures. The fine particle size enhances solubility and reactivity, making it suitable for a wide range of advanced applications. Whether used in catalytic studies, material synthesis, or other high-precision tasks, this iridium powder delivers exceptional performance and consistency, supporting the rigorous demands of modern research environments.
FAQs
1. What is the purity level of this iridium powder?
The iridium powder has a purity level of 99.9% on a trace metal basis, ensuring minimal impurities for precise results.
2. Is this powder suitable for high-temperature applications?
Yes, iridium’s high melting point and stability make this powder well-suited for applications involving elevated temperatures.
3. How should this iridium powder be stored to maintain its purity?
Store the powder in a cool, dry place, preferably in an airtight container, to prevent oxidation and contamination.
4. Can this powder be used in catalytic reactions?
Due to its high purity and fine particle size, this iridium powder is often used in catalytic studies and reactions.
5. What is the typical particle size distribution of this powder?
The powder is finely milled to ensure a consistent particle size distribution, optimizing its reactivity and performance.
