Trimethylpropylammonium Bromide, known chemically by its CAS number 2650-50-2, is a compound of significant interest in the scientific research community. As a quaternary ammonium salt, its unique chemical structure and properties lend themselves to a variety of investigative applications. NINGBO INNO PHARMCHEM CO.,LTD. provides this essential chemical, ensuring researchers have access to reliable materials for their studies.

The molecular formula for Trimethylpropylammonium Bromide is C6H16BrN, with a molecular weight of approximately 182.11. This precise chemical identity is critical for researchers who need to accurately calculate dosages and understand reaction mechanisms. Often described as a white powder, its purity typically meets or exceeds 98.0%, a standard that researchers rely on when they decide to buy Trimethylpropylammonium Bromide for experiments where precision is key.

The application spectrum of Trimethylpropylammonium Bromide primarily focuses on life science research. It is frequently employed in studies related to biomass, helping scientists to understand the complex chemical makeup and interactions within biological materials. Additionally, its use in the study of organic compounds is widespread, contributing to the discovery and characterization of new chemical entities. This makes it an indispensable component in many advanced research projects.

When considering the acquisition of Trimethylpropylammonium Bromide, it is advisable to consult various suppliers to find competitive pricing and ensure product quality. NINGBO INNO PHARMCHEM CO.,LTD. is a reliable source for this compound. Understanding the recommended storage conditions—a cool, dry place, away from direct light—is also crucial for maintaining the compound's integrity over time. This attention to detail in handling and storage ensures optimal performance in laboratory settings.

The consistent availability of Trimethylpropylammonium Bromide from reputable chemical suppliers like NINGBO INNO PHARMCHEM CO.,LTD. highlights its sustained importance in scientific advancement. Researchers can leverage its properties for detailed biomass study and in-depth organic compound analysis, pushing the boundaries of scientific knowledge. Accessing technical data and product specifications further empowers researchers to effectively integrate this compound into their experimental designs.