In the dynamic world of chemical research and development, specific molecular structures offer unique advantages. Dicyclopropylmethanamine (CAS 13375-29-6) stands out as a prime example of such a compound, offering remarkable versatility rooted in its distinct chemical architecture. This article delves into the properties and applications that make it an invaluable asset for researchers and developers seeking to advance their projects.

At its core, Dicyclopropylmethanamine is characterized by a central carbon atom bonded to an amine group and two cyclopropane rings. This structural feature imparts significant chemical properties. The molecular formula C7H13N and a molecular weight of approximately 111.19 g/mol are fundamental identifiers. Physically, it presents as a colorless transparent liquid, with a boiling point of around 161.2°C and a flash point of 45.7°C, indicating moderate volatility and flammability.

The real significance of Dicyclopropylmethanamine lies in the influence of its cyclopropane rings. These strained three-membered rings are not merely decorative; they are key to the molecule's reactivity and steric profile. The inherent ring strain contributes to their propensity to undergo ring-opening reactions under specific conditions, offering pathways to more complex molecular frameworks that would be difficult to achieve with simpler alkyl groups. This makes it an excellent building block for advanced organic synthesis.

For those looking to buy Dicyclopropylmethanamine, understanding its applications is crucial. Primarily, it serves as a critical pharmaceutical intermediate. Its structure can be incorporated into potential drug candidates to influence their binding affinity to biological targets, bioavailability, and metabolic stability. Researchers investigating new treatments for conditions ranging from autoimmune disorders to neurological diseases may find this compound an essential starting material.

Beyond pharmaceuticals, its utility extends to fine chemical synthesis. The amine group can readily participate in acylation, alkylation, and condensation reactions, allowing for the strategic introduction of the dicyclopropylmethyl moiety into larger, more complex molecules. This versatility makes it a favored choice for chemists designing novel materials or complex natural product mimetics.

When sourcing Dicyclopropylmethanamine, partnering with a reliable manufacturer and supplier is essential. Companies offering this compound from China often provide competitive pricing and a stable supply chain, critical for R&D projects that require consistent material. Ensuring the purity and quality of the supplied intermediate is paramount to the success of your synthesis and downstream applications. Always request a Certificate of Analysis and inquire about the supplier's quality control processes.

In conclusion, Dicyclopropylmethanamine (CAS 13375-29-6) is more than just a chemical compound; it's a key to unlocking new possibilities in chemical synthesis and drug discovery. Its unique structural features offer a rich platform for chemical innovation. If your research demands high-quality pharmaceutical intermediates or advanced organic building blocks, consider the chemical versatility of Dicyclopropylmethanamine and explore procurement options from trusted global suppliers.