Octylbenzene (CAS 2189-60-8): Properties, Applications, and Chemical Synthesis
A detailed look into the specifications, uses, and chemical characteristics of Octylbenzene.
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Octylbenzene
Octylbenzene, identified by CAS number 2189-60-8, is a valuable organic compound known for its distinct physical and chemical properties. It serves as a key component in various chemical processes and research applications.
- Learn about octylbenzene physical properties, including its clear, colorless liquid form and a purity of 99% minimum, making it suitable for sensitive applications.
- Discover the octylbenzene boiling point of 261-263 °C and its density of 0.858 g/mL at 25 °C, crucial data for process design and handling.
- Explore the diverse octylbenzene solvent applications, such as its use in studying the self-assembly of complex molecules and visualization via scanning tunnelling microscopy.
- Understand the basic octylbenzene chemical formula (C14H22) and molecular weight (190.32), fundamental for chemical identification and reactions.
Key Advantages
Versatile Solvent Properties
Leveraging its unique characteristics, octylbenzene offers effective octylbenzene solvent applications, facilitating complex research and industrial processes.
High Purity Standard
With a guaranteed purity of 99% minimum, this compound ensures reliable and consistent results in laboratory and manufacturing settings, as indicated by its detailed octylbenzene physical properties.
Facilitates Charge-Transfer Complex Formation
Octylbenzene plays a role in preparing charge-transfer complexes with various compounds, contributing to advancements in materials science and chemical research.
Key Applications
Chemical Research Solvent
Utilized as a solvent in scientific research to study molecular interactions and visualize structures, drawing on its well-defined octylbenzene physical properties.
Organic Synthesis Intermediate
Acts as a building block or reagent in various organic synthesis pathways, highlighting its importance in understanding octylbenzene chemical synthesis.
Materials Science Applications
Involved in the preparation of charge-transfer complexes, demonstrating its utility in advanced materials development and research.
Petrochemical Studies
Its hydrocarbon nature makes it relevant in studies related to petrochemicals and their properties, often referenced alongside other aromatic hydrocarbons.