For chemists and formulators, a deep understanding of a chemical compound's properties is critical for its successful application in synthesis. 2-(Trifluoromethyl)-3-pyridinamine (CAS: 106877-32-1) is a prime example of an organic intermediate whose characteristics make it highly valuable. As a fine chemical, its precise specifications are key for researchers and procurement specialists alike.

The molecular formula of this pyridine derivative is C6H5F3N2, with a molecular weight of 162.113. These fundamental parameters are essential for stoichiometric calculations in synthetic procedures. Physically, it is typically presented as a white powder, a common form for solid organic compounds used in laboratories and manufacturing plants. Its melting point ranges from 68-72°C, providing an indicator of its solid state stability, while its boiling point is recorded at 221.2±35.0 °C at 760 mmHg, relevant for distillation or high-temperature reactions.

The presence of the trifluoromethyl (-CF3) group is a significant feature. This highly electronegative group can influence the electronic distribution within the pyridine ring, affecting its reactivity and the properties of molecules it becomes a part of. This makes it particularly useful in the synthesis of pharmaceuticals and agrochemicals, where modifying lipophilicity and metabolic stability is often a goal.

When you are looking to buy 2-(Trifluoromethyl)-3-pyridinamine, understanding these properties from your supplier is vital. A reliable manufacturer will not only provide the CAS number (106877-32-1) and name but also detailed specifications. They will also be able to provide insights into its applications and ensure a high purity level (typically 97% min) necessary for advanced organic synthesis.

As a dedicated supplier, we offer this crucial intermediate, ensuring quality and competitive pricing for those looking to procure it. Whether for research and development or for larger-scale production, grasping the specific properties of 2-(Trifluoromethyl)-3-pyridinamine empowers chemists to leverage its full potential in their synthetic endeavors. Contact us to learn more about this important organic intermediate.