For professionals in the agrochemical industry, a deep understanding of key intermediates is crucial for successful product development and manufacturing. 3-Chloro-4-[1,1,2-trifluoro-2-(trifluoromethoxy)ethoxy]aniline, identified by CAS number 116714-47-7 and commonly known as Novaluron Intermediate, is one such compound. This article explores its synthesis pathways and fundamental chemical properties, providing valuable insights for those looking to buy or work with this material.

The synthesis of Novaluron Intermediate typically involves an etherification reaction. A common method describes its preparation through the etherification of trifluoromethoxytrifluoroethylene with 2-chloro-4-aminophenol. This process leverages specialized fluorination chemistry and carefully controlled reaction conditions to achieve the desired molecular structure. Understanding these synthesis routes can help buyers assess the potential impurity profiles offered by different manufacturers.

Chemically, this intermediate is characterized by its complex structure, featuring a chlorinated benzene ring substituted with a fluorinated ethoxy chain containing a trifluoromethoxy group. This combination of functional groups imparts unique properties. The presence of multiple fluorine atoms often enhances chemical stability and lipophilicity, which are desirable traits in agrochemical active ingredients. Its physical state is typically a white to yellow crystalline powder, and it is generally insoluble in water but soluble in various organic solvents.

Key physical and chemical properties, such as a boiling point of around 294°C and a flash point of approximately 131°C, are important for safe handling, storage, and processing. The purity requirement for this intermediate is usually high, often specified as ≥98.0%, to ensure the efficiency and quality of the downstream Novaluron synthesis. When you are ready to purchase this chemical, consulting these specifications with potential suppliers is essential.

As a vital component in the production of Novaluron, a growth regulator insecticide, the demand for this intermediate remains consistent. Companies involved in crop protection rely on a stable supply from dependable manufacturers. When considering where to buy this chemical, look for suppliers who can provide not only the product but also detailed technical information, including synthesis context and purity analysis. This diligence helps in selecting the right partner for your manufacturing needs.

In conclusion, comprehending the synthesis and properties of 3-Chloro-4-[1,1,2-trifluoro-2-(trifluoromethoxy)ethoxy]aniline is fundamental for anyone in the agrochemical sector working with Novaluron. By understanding these chemical characteristics and manufacturing processes, procurement professionals can make informed decisions when selecting suppliers and ensuring the quality of this critical intermediate.