Description
Specifications Table
Product Name – Tetrapentylammonium Iodide For Synthesis Quantity/Pack Size – 25 GM Form – Powder Grade – Synthesis Application – Laboratory Research
Product Overview
Tetrapentylammonium Iodide is a high-purity chemical compound widely used in laboratory settings for various synthesis applications. This compound is known for its exceptional quality and reliability, making it a preferred choice among students, researchers, and educators. Its unique properties make it an essential tool for advanced chemical research and experiments. The compound is available in a convenient powder form, ensuring ease of handling and storage. Its synthesis grade guarantees high purity levels, which is crucial for accurate and reproducible experimental results. Whether you are conducting academic research or industrial experiments, Tetrapentylammonium Iodide from eqipped is your trusted partner for achieving precise and reliable outcomes.
FAQs
1. What is Tetrapentylammonium Iodide used for?
Tetrapentylammonium Iodide is primarily used in laboratory settings for synthesis applications. It is a high-purity chemical compound that is essential for various research and experimental purposes.
2. What is the form of Tetrapentylammonium Iodide?
Tetrapentylammonium Iodide is available in powder form, making it easy to handle and store in laboratory environments.
3. What grade is Tetrapentylammonium Iodide?
Tetrapentylammonium Iodide is of synthesis grade, ensuring high purity levels that are crucial for accurate and reproducible experimental results.
4. Is Tetrapentylammonium Iodide compatible with other chemicals?
Tetrapentylammonium Iodide is generally compatible with a wide range of chemicals used in laboratory settings. However, it is always recommended to check compatibility with specific chemicals before use.
5. How should Tetrapentylammonium Iodide be stored?
Tetrapentylammonium Iodide should be stored in a cool, dry place away from direct sunlight and heat sources. Proper storage ensures the longevity and effectiveness of the compound.
