Unveiling 1,2-Dideoxy-1-(phenylimino)-D-erythro-pentitol: A Versatile Fine Chemical
Explore the properties, applications, and sourcing of this crucial compound.
Get a Quote & SampleProduct Core Value
1,2-Dideoxy-1-(phenylimino)-D-erythro-pentitol
This fine chemical, identified by CAS number 136207-41-5, is a white powder with a purity of 98%. Its molecular formula is C11H15NO3, with a molecular weight of 209.24 g/mol. It boasts a high boiling point of 453.1 °C at 760 mmHg and a density of 1.17 g/cm³.
- Discover the widespread use of this N-phenyl-2-deoxy-D-glucosylamine derivative in cosmetic formulations, contributing to product efficacy and stability.
- Learn about the potential pharmaceutical applications of this 1,2-dideoxy-1-(phenylimino)-d-erythro-pentitol, exploring its role as a research chemical.
- Understand the key characteristics of C11H15NO3, including its role as a potential building block in complex syntheses.
- Explore various sourcing options for this high-purity compound, with numerous suppliers available in China.
Key Advantages
High Purity and Quality
Achieve reliable results with a product boasting 98% purity, making it suitable for sensitive applications in cosmetics and medicine, leveraging the precise chemical structure of 1,2-dideoxy-1-(phenylimino)-D-erythro-pentitol.
Versatile Applications
From enhancing cosmetic products to serving as a vital component in pharmaceutical research, the broad applicability of this fine chemical, also known as N-phenyl-2-deoxy-D-glucosylamine, is a significant advantage.
Research and Development Potential
Utilize this compound as a building block in advanced chemical syntheses, contributing to innovation in fields like DNA synthesis, as indicated by its chemical formula C11H15NO3.
Key Applications
Cosmetic Industry
The 1,2-dideoxy-1-(phenylimino)-D-erythro-pentitol finds application in cosmetic formulations, where its properties contribute to product performance and consumer appeal.
Pharmaceutical Research
As a fine chemical, it is utilized in pharmaceutical research, potentially serving as an intermediate or a subject of study for new drug development.
Organic Synthesis
Its molecular structure makes it a valuable compound for organic synthesis, enabling the creation of more complex molecules with specific properties.
Chemical Material Science
This pentitol derivative is explored for its properties in various chemical material science applications, pushing the boundaries of material innovation.