N-(8-Hydroxyoctyl)phthalimide: A Versatile Building Block for Chemical Innovation
Discover the properties and potential applications of this key organic synthesis intermediate.
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N-(8-Hydroxyoctyl)phthalimide
N-(8-Hydroxyoctyl)phthalimide, identified by CAS number 105264-63-9, is a crucial organic compound utilized extensively in chemical research and development. Its unique structure makes it a valuable building block for the synthesis of more complex molecules, contributing to advancements in material science and pharmaceutical intermediates.
- Explore the essential properties of N-(8-Hydroxyoctyl)phthalimide, including its purity levels and physical form, to ensure optimal use in your research.
- Understand the diverse applications of N-(8-Hydroxyoctyl)phthalimide in organic synthesis and chemical research to drive innovation in your projects.
- Leverage the key characteristics of N-(8-Hydroxyoctyl)phthalimide, such as its purity and chemical structure, to achieve your desired synthesis outcomes.
- Find reliable sources for N-(8-Hydroxyoctyl)phthalimide with consistent quality for your laboratory needs.
Key Advantages
High Purity
With a guaranteed purity of ≥98.0%, this N-(8-Hydroxyoctyl)phthalimide ensures reliable and reproducible results in your chemical synthesis, making it a trusted choice for demanding research applications.
Versatile Building Block
As a phthalimide derivative, N-(8-Hydroxyoctyl)phthalimide serves as an excellent starting material for a wide range of organic transformations, enabling the creation of novel compounds for various industries.
Comprehensive Characterization
Detailed specifications, including molecular formula (C16H21NO3) and molecular weight (275.348 g/mol), are available, providing essential data for precise application and research planning.
Key Applications
Organic Synthesis
N-(8-Hydroxyoctyl)phthalimide is widely used as a key intermediate in complex organic synthesis pathways, facilitating the construction of specialized molecules.
Chemical Research
Researchers utilize this compound in various R&D projects to explore new chemical reactions and develop novel materials.
Material Science
Its unique chemical structure makes it a potential candidate for developing advanced materials with tailored properties.
Pharmaceutical Intermediates
As a phthalimide derivative, it can serve as a precursor in the synthesis of various pharmaceutical compounds.