For research and development scientists and product formulators, a deep understanding of chemical compounds is fundamental to innovation and product optimization. Copper Oleate (CAS 1120-44-1) is one such compound that warrants detailed consideration due to its multifaceted chemical properties and diverse application potential. As a specialized manufacturer, we aim to provide clarity on this important chemical.

Copper Oleate is chemically known as Bis[(Z)-9-octadecenoic acid] copper(II) salt. It typically appears as a blue-green solid. Its synthesis can be achieved through various methods, including reacting oleic acid with copper oxides or copper salts, or by precipitation reactions, such as reacting copper(II) sulfate solutions with sodium oleate. The purity and specific synthesis route can influence its performance characteristics in different applications. For R&D purposes, obtaining samples from reliable suppliers is a crucial first step to validate its suitability for specific formulations or reactions.

The chemical properties of Copper Oleate make it highly functional. Its insolubility in water but solubility in organic solvents like ethanol and ether dictates its use in non-aqueous systems. This solubility profile is advantageous when formulating with oils, greases, or organic-based coatings and lubricants. Furthermore, its metallic nature contributes to its utility as a catalyst in various organic syntheses. For chemists investigating catalytic processes, understanding the activity and selectivity of Copper Oleate as a catalyst can unlock new reaction pathways or improve existing ones.

As an emulsifier and dispersant, Copper Oleate aids in creating stable mixtures of immiscible substances. This property is valuable in agrochemical formulations, industrial cleaning agents, and certain polymerization processes. For formulators working with complex mixtures, Copper Oleate can help achieve desired rheological properties and ensure uniform distribution of components.

When considering the purchase of Copper Oleate, R&D professionals should pay close attention to specifications such as copper content, purity, and the absence of critical impurities. Competitive pricing from a manufacturer is always a consideration, but for research applications, consistency and well-documented quality assurance are often prioritized. Engaging with a knowledgeable supplier can provide access to both the material and expert advice on its handling and potential applications.

Exploring the broad spectrum of Copper Oleate's chemical behaviors—from its role as a catalyst to its functionality as an emulsifier and its protective properties—offers fertile ground for innovation. By understanding its synthesis and properties, R&D scientists can effectively leverage this compound to develop next-generation products.