Unlock the Potential of 6-Aminoquinoline: A Versatile Chemical Intermediate for Research and Development
Discover the extensive applications and properties of 6-Aminoquinoline (CAS 580-15-4) for your advanced chemical needs.
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6-Aminoquinoline
6-Aminoquinoline is a highly valuable chemical intermediate that plays a crucial role in various scientific and industrial applications. Its unique molecular structure makes it an indispensable building block for synthesizing complex organic molecules and developing novel materials. Researchers rely on this compound for its contributions to fluorescence studies, its utility in catalysis, and its application in environmental monitoring.
- Explore the key properties of 6-Aminoquinoline, including its molecular formula (C9H8N2) and a molecular weight of 144.17 g/mol.
- Understand the diverse uses of 6-Aminoquinoline in chemical synthesis, particularly for creating advanced heterocyclic compounds.
- Learn about the importance of 6-Aminoquinoline in material science and its role in developing new imaging agents due to its fluorescence properties.
- Discover how 6-Aminoquinoline is utilized in environmental science for the detection and analysis of metals and pollutants through complexation reactions.
Advantages of Using 6-Aminoquinoline
Enhanced Chemical Synthesis
Leverage 6-Aminoquinoline for sophisticated organic synthesis, enabling the creation of intricate molecular structures crucial for advanced chemical research.
Advanced Material Development
Utilize 6-Aminoquinoline as a foundational component in material science, paving the way for innovations in areas like fluorescent probes and functional materials.
Versatile Research Applications
Benefit from the wide applicability of 6-Aminoquinoline in catalysis and environmental analysis, supporting breakthroughs in diverse scientific fields.
Key Applications
Chemical Synthesis
As a vital building block, 6-Aminoquinoline is integral to the synthesis of numerous organic compounds, facilitating advancements in pharmaceutical and fine chemical industries.
Material Science
The compound's properties make it suitable for developing novel materials, including fluorescent markers and specialty polymers, contributing to technological progress.
Research and Development
6-Aminoquinoline serves as a critical reagent in academic and industrial R&D, supporting investigations into new chemical reactions and material properties.
Environmental Monitoring
Its chelating capabilities are exploited in environmental science for the sensitive detection of heavy metals and other pollutants in various matrices.