For professionals in the chemical and manufacturing industries, understanding the properties and applications of key compounds is essential for making informed sourcing decisions. N-Isopropylhydroxylamine, identified by CAS number 5080-22-8, is one such compound gaining prominence due to its versatile applications and favorable safety profile compared to traditional alternatives. This article aims to provide a detailed overview for B2B buyers, R&D scientists, and product formulators.

Physical and Chemical Properties

N-Isopropylhydroxylamine is typically described as a clear, colorless liquid. Its molecular formula is C3H9NO, and it possesses a molecular weight of approximately 75.11 g/mol. Key physical properties include a melting point of 159-160°C (with decomposition) and a boiling point around 104.9°C at standard atmospheric pressure. Its density is around 0.886 g/cm3. While it exhibits solubility in water, its precise solubility can vary. For precise technical specifications, potential buyers are encouraged to request detailed product data sheets from manufacturers and suppliers.

Chemically, N-Isopropylhydroxylamine (IPHA) functions as a reducing agent and a base. Its hydroxylamine group (-NHOH) is key to its reactivity, enabling it to act as an oxygen scavenger and participate in various organic synthesis reactions. It is notably more stable under neutral or slightly acidic conditions but can degrade in the presence of strong inorganic acids. Understanding these properties is crucial for safe handling, storage, and application.

Primary Industrial Applications

The versatility of N-Isopropylhydroxylamine manifests in its diverse industrial uses:

1. Oxygen Scavenger and Corrosion Inhibitor: In industrial water treatment, particularly in boiler systems, dissolved oxygen can cause severe corrosion. IPHA effectively removes this oxygen, protecting metal components and extending equipment lifespan. It is also recognized as a safer, more environmentally friendly alternative to hydrazine for these applications. Companies in the water treatment chemicals sector are key users.

2. Polymerization Shortstopping Agent: IPHA is a vital component in the manufacturing of synthetic polymers, such as styrene-butadiene rubber. It acts as a shortstopping agent in free radical emulsion polymerization, controlling reaction rates and ensuring the desired molecular weight and properties of the final polymer. This makes it critical for the synthetic rubber manufacturing industry.

3. Chemical Intermediate: The reactive nature of IPHA makes it a valuable building block in organic synthesis. Researchers and chemists utilize it in the development of new pharmaceuticals, agrochemicals, and other fine chemicals. Its role as a chemical intermediate supports innovation across various specialized chemical sectors.

Sourcing N-Isopropylhydroxylamine (CAS 5080-22-8)

For businesses looking to source N-Isopropylhydroxylamine, focusing on reliable manufacturers and suppliers is essential. China has emerged as a leading global supplier of fine chemicals, offering high-purity N-Isopropylhydroxylamine at competitive prices. When considering a manufacturer or supplier, factors such as purity levels (e.g., 99% min.), production capacity, packaging options, and compliance with international quality standards (like ISO) are important.

Procurement managers and R&D scientists often search for specific terms like 'buy N-Isopropylhydroxylamine,' 'isopropylhydroxylamine price,' or 'CAS 5080-22-8 for sale.' Engaging with established China-based companies can provide direct access to factory pricing and a stable supply chain. Many suppliers also offer technical support and custom synthesis services, catering to unique project requirements.

In conclusion, N-Isopropylhydroxylamine (CAS 5080-22-8) is a compound with significant industrial value, offering effective solutions for water treatment and polymerization, while also serving as a versatile intermediate. By understanding its properties and applications, and by partnering with reputable global suppliers, industries can leverage this chemical to enhance their processes and products.