6-Aminoquinoline, identified by its CAS number 580-15-4, is a compound that has garnered significant attention in various scientific disciplines due to its unique characteristics and broad applicability. As a fine chemical intermediate, it serves as a fundamental component in the synthesis of more complex molecules, driving innovation across multiple sectors. This article aims to elucidate the key properties of 6-Aminoquinoline and its diverse uses, providing valuable insights for researchers and industry professionals alike.

Chemically, 6-Aminoquinoline is characterized by its molecular formula C9H8N2 and a molecular weight of approximately 144.17 g/mol. Its physical form is typically a brown crystalline powder. Important physical properties include a melting point range of 115-119 °C and a boiling point of 146 °C at 0.3 mmHg. The compound exhibits moderate solubility in organic solvents like chloroform, DMSO, and methanol, but is largely insoluble in water. Understanding these properties is crucial for its effective handling, storage, and application in various chemical processes. The quality standard often sought for 6-Aminoquinoline is high purity, typically above 98%, ensuring reliable performance in sensitive applications.

The applications of 6-Aminoquinoline are remarkably diverse. In chemical synthesis, it is a prized building block for creating intricate organic molecules, including pharmaceuticals and specialty chemicals. Its reactivity allows for diverse chemical transformations, making it a versatile tool for organic chemists. Furthermore, in material science, 6-Aminoquinoline is being investigated for its potential in developing novel materials with specific optical properties, such as fluorescent dyes and probes. These materials are vital for advancements in imaging technologies and sensors.

The compound also plays a role in environmental science. Its capacity to chelate metal ions makes it useful in analytical chemistry for detecting and quantifying heavy metals and other environmental contaminants. This application is essential for pollution monitoring and ensuring water and soil safety. The reliability of 6-Aminoquinoline in these analytical methods contributes to accurate environmental assessments.

For businesses looking to source this chemical, identifying reputable 6-Aminoquinoline suppliers is paramount. Companies often seek suppliers in regions like China, known for its extensive chemical manufacturing capabilities. The price of 6-Aminoquinoline can fluctuate based on market demand, purity levels, and order volume, necessitating careful sourcing strategies. Ensuring compliance with quality standards, such as those outlined in USP, BP, or FCC, is also a key consideration for many end-users, particularly in pharmaceutical applications.

In summary, 6-Aminoquinoline (CAS 580-15-4) is a chemical compound of significant industrial and research importance. Its well-defined physical and chemical properties, coupled with its broad range of applications from complex synthesis to environmental monitoring, make it an indispensable resource. As scientific research progresses, the demand for high-quality 6-Aminoquinoline is expected to persist, driving further exploration of its capabilities and potential new uses.