1,9-Dichlorononane: Properties, Synthesis, and Applications as an Organic Intermediate
Discover the essential characteristics and uses of 1,9-Dichlorononane, a key compound in modern organic synthesis.
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1,9-Dichlorononane
1,9-Dichlorononane, identified by CAS number 821-99-8, is a crucial organic synthesis intermediate characterized by its colorless, transparent liquid appearance and a high purity of at least 99.0%.
- As a vital 1,9-Dichlorononane organic synthesis intermediate, this compound plays a significant role in the creation of more complex molecules.
- Explore the detailed 1,9-Dichlorononane physical properties, including its boiling point of 260°C and flash point, crucial for safe handling and processing.
- Learn where to buy 1,9-Dichlorononane CAS 821-99-8 for your research and industrial needs.
- Understand the various methods for 1,9-Dichlorononane synthesis, contributing to efficient chemical production.
Advantages
High Purity
With an assay of ≥99.0%, our 1,9-Dichlorononane ensures reliable and consistent results in your synthetic processes, reflecting its excellent 1,9-Dichlorononane purity.
Chemical Versatility
As a key player in 1,9-Dichlorononane applications, its dihaloalkane structure makes it a valuable building block in various organic transformations.
Quality Assurance
We provide detailed 1,9-Dichlorononane chemical properties and specifications to guarantee you receive a product that meets stringent quality standards.
Key Applications
Organic Synthesis
Leverage the capabilities of 1,9-Dichlorononane as a versatile building block for creating complex organic molecules and fine chemicals.
Pharmaceutical Intermediates
Its specific structure makes it a valuable starting material or intermediate in the synthesis of pharmaceutical compounds.
Material Science
Explore its potential in material science applications where specific chain lengths and functionalities are required.
Biochemical Research
Investigate its role in biological studies, as some organisms can utilize it as a carbon source, offering unique research avenues.