For synthetic chemists and R&D professionals, the quest for efficient and effective synthetic routes is continuous. Adamantane-1,3-diamine (CAS: 10303-95-4) offers a unique set of properties that can significantly optimize various chemical syntheses, particularly in the fields of pharmaceuticals and advanced materials. Understanding how to best utilize this compound, from sourcing to application, can lead to more robust and successful outcomes.

The inherent rigidity of the adamantane core in Adamantane-1,3-diamine provides a fixed spatial orientation for the amine functionalities. This structural characteristic can be exploited to control stereochemistry in reactions or to create well-defined molecular architectures. When planning your synthesis, consider how this structural rigidity can prevent unwanted conformational flexibility and simplify the isolation of desired products. If you aim to buy a compound that brings predictability to your reactions, this diamine is an excellent choice.

To optimize its use, ensure you are sourcing Adamantane-1,3-diamine with guaranteed high purity, typically 97% or above. Impurities can not only lead to lower yields but also introduce byproducts that are difficult to remove, complicating purification steps. Partnering with a reliable manufacturer or supplier is key to ensuring consistent quality. We offer competitive price options for this crucial intermediate, making it accessible for both laboratory-scale experiments and larger production runs when you purchase.

Handling Adamantane-1,3-diamine also requires attention to its properties. While it has a relatively high flash point (122°C), it is still an organic compound that should be handled with appropriate personal protective equipment in a well-ventilated area. Its density (1.153 g/cm³) and boiling point (249°C) are important parameters for process design, especially when scaling up reactions. Understanding these physical attributes helps in designing safe and efficient processes.

The applications are diverse: from acting as a linker in the synthesis of MOFs and COFs to serving as a core structure for new drug candidates. Its difunctional nature allows for straightforward derivatization. For example, simple reactions with electrophiles can lead to a wide array of substituted adamantanes. When considering your next synthetic project, we encourage you to request a quote from us, your trusted supplier, to explore how Adamantane-1,3-diamine can elevate your research and development efforts. As a leading manufacturer, we are dedicated to providing the highest quality materials to optimize your synthesis.