In the realm of organic chemistry, precise and reliable reagents are paramount for successful synthesis. O-(4-Nitrophenyl)hydroxylamine, identified by CAS number 33543-55-4, stands out as a valuable building block for a multitude of chemical transformations. This article aims to provide a comprehensive overview of this compound, focusing on its utility for researchers and manufacturers seeking high-quality chemical intermediates.

O-(4-Nitrophenyl)hydroxylamine is characterized by its white solid appearance and high purity, often exceeding 98%. Its IUPAC name, O-(4-nitrophenyl)hydroxylamine, and common synonyms like p-Nitrophenoxyamine, help in identifying it across various chemical databases. The compound's melting point, typically around 126-127°C, is a key physical property that aids in its identification and quality control. Understanding these fundamental aspects is crucial when considering the O-(4-Nitrophenyl)hydroxylamine purity and properties for your specific applications.

The synthesis of O-(4-Nitrophenyl)hydroxylamine often involves multi-step processes, starting from readily available precursors. Detailed synthesis procedures, as found in patents like WO2010/38029, highlight its preparation from ethyl N-(4-nitrophenoxy)acetimidate. This information is vital for manufacturers looking to optimize production and for researchers interested in the O-(4-Nitrophenyl)hydroxylamine CAS 33543-55-4 synthesis. The availability of raw materials such as acetonitrile, hydrochloric acid, and sodium hydroxide further solidifies its accessibility.

As a versatile chemical intermediate, O-(4-Nitrophenyl)hydroxylamine finds extensive use in various fields. It is a key component in the development of pharmaceuticals, serving as a precursor for active pharmaceutical ingredients (APIs). In materials science, it can be incorporated into the synthesis of novel polymers and functional materials. Its role as one of the essential chemical building blocks O-(4-Nitrophenyl)hydroxylamine makes it indispensable for creating complex molecular structures. For those looking to buy this compound, numerous suppliers offer it, ensuring a stable supply chain for research and industrial needs.

Safety is a critical consideration when handling any chemical. O-(4-Nitrophenyl)hydroxylamine is classified with hazard statements such as H301 (Harmful if swallowed), H311 (Toxic in contact with skin), and H331 (Toxic if inhaled). Therefore, strict adherence to precautionary measures, including avoiding inhalation, wearing appropriate personal protective equipment (PPE), and ensuring adequate ventilation, is necessary. Consulting the safety data for O-(4-Nitrophenyl)hydroxylamine before use is highly recommended.

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