In the ever-evolving landscape of specialty chemicals, ionic liquids (ILs) have carved out a significant niche due to their unique and tunable properties. Among these, 1-Butyl-3-methylimidazolium Nitrate (BMIM NO3), identified by CAS number 179075-88-8, is a compound of particular interest for its diverse applications in synthesis, electrochemistry, and material science. As a manufacturer dedicated to the research and production of these advanced materials, understanding and communicating the intrinsic properties of BMIM NO3 is fundamental to empowering our B2B clients.

At its core, BMIM NO3 is an organic salt that exists as a liquid at or near room temperature. Its chemical structure consists of a 1-butyl-3-methylimidazolium cation and a nitrate anion. This ionic nature is responsible for many of its characteristic properties, including its low volatility and good ionic conductivity. The presence of the butyl and methyl groups on the imidazolium ring influences its solubility and viscosity, while the nitrate anion contributes to its reactivity and electrochemical behavior. These structural elements are key to its utility as a versatile chemical entity.

From a technical standpoint, BMIM NO3 is prized for its high purity, typically offered at 98% to 99%. A critical aspect for any discerning buyer is the impurity profile. Reputable suppliers, such as those in China's advanced chemical manufacturing sector, ensure very low levels of key impurities. For BMIM NO3, this means methylimidazole content below 1000 ppm, halogen content below 1000 ppm, and water content also below 1000 ppm. These stringent controls are vital for ensuring consistent performance in sensitive applications like battery electrolytes and pharmaceutical intermediates.

The physical-chemical properties of BMIM NO3 are equally important for its practical application. Its density is around 1.16 g/cm³, and its viscosity is notable, often around 266 cP at room temperature (though variations exist depending on specific measurements and sources). The melting point is typically in the range of -40°C to -36°C, confirming its liquid state at ambient conditions. Its conductivity, measured at approximately 1.7 mS/cm, highlights its potential as an electrolyte. Furthermore, its electrochemical window is a critical parameter for electrochemistry-driven applications, ensuring stability within specific voltage ranges.

For businesses looking to purchase BMIM NO3, understanding these properties allows for informed decision-making. Whether it's for use as a solvent in specialty chemical synthesis, an electrolyte in energy storage devices, or a component in functional fluids, the specific characteristics of BMIM NO3 dictate its suitability. Manufacturers that can consistently supply material with these defined properties, backed by thorough analytical data, become invaluable partners. When considering the price of 1-butyl-3-methylimidazolium nitrate, it's essential to weigh this against the guaranteed quality and performance benefits it offers, especially when sourced from established suppliers in China.

In conclusion, the chemistry of 1-Butyl-3-methylimidazolium Nitrate is defined by its ionic structure, high purity, and distinct physical properties. These attributes underpin its growing importance in various industrial sectors. For any company seeking to leverage the capabilities of this advanced ionic liquid, partnering with a knowledgeable manufacturer that prioritizes quality and transparency is the most effective path to success.