For professionals in the chemical and manufacturing industries, a thorough understanding of key chemical compounds is vital. Isopropylparaben, identified by its CAS number 4191-73-5, is one such compound that plays a significant role, particularly as a preservative. This article aims to provide a detailed chemical perspective on Isopropylparaben, covering its properties and industrial relevance.

Isopropylparaben is characterized by its chemical formula C10H12O3 and a molecular weight of 180.2. It presents as a white crystalline powder, a physical form that is advantageous for handling and incorporation into various formulations. The 'isopropylparaben properties' are critical for its application, with a melting point typically ranging from 84-86℃ and a boiling point of 160℃ at 5mmHg. These parameters are indicative of its thermal stability and behavior under different processing conditions.

As an antimicrobial agent, Isopropylparaben is extensively used in the cosmetic industry. Its ability to inhibit the growth of bacteria and fungi makes it an effective preservative, extending the shelf life and maintaining the quality of a wide array of personal care products. The discussions surrounding 'paraben compounds' and their broad use have led to increased scrutiny, yet their efficacy remains undeniable in many applications. For industries seeking reliable preservatives, understanding the 'uses of isopropylparaben' is essential for informed decision-making.

The availability of Isopropylparaben in a high-purity, 'white crystalline powder' form ensures consistency in manufacturing processes. Its application extends beyond cosmetics, with potential roles as a 'pharmaceutical intermediate' being explored. The reliable 'supply of Isopropylparaben' from chemical manufacturers is crucial for industries that depend on its preservative qualities. As research progresses, the compound's unique chemical attributes continue to be leveraged across different sectors, underscoring its importance in the chemical supply chain.