High Purity 2,2-Diethoxytriethylamine: Properties, Applications, and Synthesis Guide
Discover the key properties and applications of this vital organic synthesis intermediate.
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2,2-Diethoxytriethylamine
This compound, identified by CAS number 3616-57-7, is a high-purity chemical intermediate essential for advanced organic synthesis and critical pharmaceutical manufacturing processes. Its distinct physical and chemical characteristics make it a preferred choice for researchers and manufacturers.
- Leverage the versatility of 2,2-Diethoxytriethylamine in your organic synthesis projects. This compound serves as a key building block for a wide array of complex molecules, facilitating innovation in chemical research.
- Ensure reliability in pharmaceutical manufacturing with our high-purity intermediate. The specified purity levels guarantee consistent results and compliance with stringent industry standards.
- Understand the critical chemical properties, including its boiling point of 194-195°C and flash point of 65°C. This data is vital for safe handling, storage, and application in various chemical reactions.
- Explore the diverse applications of 2,2-Diethoxytriethylamine, a cornerstone for creating novel compounds and essential pharmaceutical ingredients.
Key Advantages Provided
High Purity and Consistency
Benefit from a product with specified high purity (≥98.0%), ensuring predictable outcomes in complex chemical transformations. This is crucial when working with pharmaceutical manufacturing raw material.
Versatile Intermediate
Utilize 2,2-Diethoxytriethylamine as a versatile intermediate in organic synthesis, enabling the creation of a broad spectrum of chemical compounds and advanced materials.
Reliable Chemical Properties
Rely on well-documented chemical properties such as density and refractive index for accurate process design and implementation, supporting your high purity 2,2-Diethoxytriethylamine applications.
Key Applications
Organic Synthesis
A fundamental component in the synthesis of complex organic molecules, contributing to advancements in chemical research and development. Its use aligns with key organic synthesis intermediate requirements.
Pharmaceuticals
An essential raw material for the pharmaceutical industry, facilitating the production of various active pharmaceutical ingredients (APIs) and intermediates. This underscores its role as a crucial pharmaceutical manufacturing raw material.
Research and Development
Supports cutting-edge research by providing a reliable and well-characterized chemical for experimental synthesis and new compound discovery.
Specialty Chemicals
Used in the development and production of a range of specialty chemicals requiring precise molecular structures and high purity.
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