1,3-Bis(4-piperidyl)propane CAS 16898-52-5: Properties, Applications, and Supplier Information
Discover the detailed properties and diverse applications of 1,3-Bis(4-piperidyl)propane, a key fine chemical intermediate.
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1,3-Bis(4-piperidyl)propane
1,3-Bis(4-piperidyl)propane (CAS 16898-52-5) is a crucial organic compound widely utilized as a fine chemical intermediate. Its molecular structure and reactive sites make it valuable in various chemical syntheses, particularly in the pharmaceutical industry. This compound is known for its hygroscopic nature and requires careful handling and storage to maintain its integrity. As a secondary amine, it plays a role in developing complex molecular structures.
- Explore the 1,3-Bis(4-piperidyl)propane properties, including its melting point range of 65-68.5°C and a boiling point of 327°C, indicating its solid state at room temperature.
- Understand the 1,3-Bis(4-piperidyl)propane applications in organic synthesis, where it serves as a building block for more complex molecules.
- Learn about CAS 16898-52-5 uses in research and development, contributing to advancements in material science and pharmaceuticals.
- Access supplier information and purity specifications, typically at ≥97%, essential for reliable fine chemical intermediates for pharmaceuticals.
Key Advantages
High Purity and Consistency
Benefit from the guaranteed high purity of 1,3-Bis(4-piperidyl)propane, ensuring reliable and reproducible results in your synthesis processes.
Versatile Chemical Building Block
Leverage the versatile nature of this compound for various organic synthesis pathways, contributing to the development of new pharmaceutical agents.
Reliable Supplier Data
Access essential supplier data for CAS 16898-52-5, streamlining your procurement process for critical fine chemical intermediates.
Key Applications
Pharmaceutical Synthesis
As a key intermediate, 1,3-Bis(4-piperidyl)propane is integral to the 1,3-Bis(4-piperidyl)propane synthesis of various active pharmaceutical ingredients (APIs).
Chemical Research
Researchers utilize this compound in exploratory chemistry, investigating its reactivity and potential in novel material development, making it a sought-after fine chemical.
Organic Synthesis
The compound's structure lends itself to complex organic synthesis pathways, offering solutions for creating intricate molecular architectures.
Specialty Chemical Production
Its utility extends to the production of specialty chemicals, where its unique properties contribute to the final product's performance.