In the intricate landscape of biochemical research and chemical synthesis, precise control over reaction conditions is paramount. BIS-Tris Propane, identified by its CAS number 64431-96-5, emerges as a vital reagent, primarily functioning as a high-performance biological buffer. Its consistent chemical properties and reliable buffering capacity make it an indispensable tool for scientists aiming for accuracy and reproducibility in their work.

The chemical name, 1,3-Bis[tris(hydroxymethyl)methylamino]propane, hints at its complex structure designed for optimal buffer performance. Available as a white crystalline powder, BIS-Tris Propane exhibits a defined melting point range of 162.0-165.0 °C, indicative of its purity and consistent quality. A high assay of 99.0%-101.0% ensures that impurities are minimized, which is critical when dealing with sensitive enzymatic reactions or delicate protein structures. Understanding the BIS-Tris Propane applications is key to leveraging its full potential.

The utility of BIS-Tris Propane extends across various scientific domains. In biochemical research, it is frequently used to maintain stable pH during enzyme assays, chromatographic separations, and protein purification processes. Its buffering range is particularly suitable for many biological systems, contributing to the stability and activity of biomolecules. For chemical synthesis, particularly in the creation of specialized compounds or intermediates, precise pH control is often necessary to direct reaction pathways and maximize yields. This is where a reliable BIS-Tris Propane supplier becomes invaluable.

For laboratories and research institutions, the decision to buy BIS-Tris Propane is a strategic one, focusing on the quality and reliability of the chemical. NINGBO INNO PHARMCHEM CO.,LTD. is dedicated to supplying BIS-Tris Propane that meets rigorous standards. By ensuring the highest purity, we empower researchers to push the boundaries of scientific discovery. Investing in quality BIS-Tris Propane is an investment in the integrity and success of your research and development efforts, ensuring that your synthetic processes and biochemical experiments proceed without the interference of suboptimal buffering.