In the ever-evolving field of organic synthesis, the availability of versatile and reliable chemical intermediates is key to innovation. 5-Aminotetrazole Monohydrate (CAS 15454-54-3) stands out as a significant compound, valued for its unique reactivity and its contribution to the synthesis of complex molecules, most notably pyrimidines.

Understanding the Chemical Properties and Applications

5-Aminotetrazole Monohydrate is a heterocyclic organic compound characterized by a tetrazole ring with an amino group. Its hydrate form, CAS 15454-54-3, is commonly encountered and utilized in laboratory and industrial settings. The compound is typically a white to off-white crystalline solid, soluble in water and ethanol, making it convenient for reactions conducted in common organic solvents.

Its primary application lies in its role as a crucial intermediate in condensation reactions. Chemists often employ it to construct pyrimidine rings, which are fundamental structures in many pharmaceuticals, agrochemicals, and functional materials. The facile reaction conditions and good yields often achieved with this reagent make it a preferred choice for synthetic chemists aiming to efficiently build these heterocyclic systems.

Sourcing 5-Aminotetrazole Monohydrate: What Scientists Need to Know

For research scientists and product formulators, accessing high-purity 5-Aminotetrazole Monohydrate is essential for reproducible results. When looking to buy this chemical, understanding the supplier's capabilities is vital. A reputable manufacturer will provide detailed Certificates of Analysis (CoA) that confirm purity levels, typically above 97% or 99%. This ensures that the material's reactivity and performance in complex synthesis pathways are predictable.

Consider the supplier's geographical location and logistics. Sourcing from established chemical suppliers in China, for instance, can offer cost efficiencies and a broader selection of grades. For a scientist looking to purchase 5-Aminotetrazole Monohydrate for their R&D projects, comparing prices and availability from different manufacturers can lead to significant cost savings without sacrificing quality.

The Future of 5-Aminotetrazole Monohydrate in Synthesis

As synthetic methodologies advance, intermediates like 5-Aminotetrazole Monohydrate will continue to play a vital role. Its potential applications extend beyond pyrimidine synthesis, with ongoing research exploring its use in the development of novel energetic materials and as a ligand in coordination chemistry. For any laboratory or company engaged in organic synthesis, having a reliable source for this versatile compound is a strategic advantage.

If you are a researcher or formulator looking to purchase 5-Aminotetrazole Monohydrate, engaging with experienced manufacturers and suppliers will ensure you receive the quality material needed for your groundbreaking work.