N6-Benzoyladenine, identified by its CAS number 4005-49-6, is a synthetically derived compound with a molecular formula of C12H9N5O and a molecular weight of approximately 239.23 g/mol. This chemical substance typically presents as a white to off-white crystalline powder, indicating a solid physical state at standard conditions. Its solubility in polar solvents like water and ethanol, contrasted with insolubility in non-polar solvents such as chloroform and ether, provides key information for its handling, formulation, and use in various chemical processes.

The compound exhibits a melting point in the range of 242-244°C, a characteristic that speaks to its stable crystalline structure. Its boiling point is recorded at 443.7°C, and a flash point of 222.2°C, suggesting a moderate level of flammability under specific conditions. These physical and chemical properties are essential for safe storage, transportation, and experimental design when working with N6-Benzoyladenine. Reliable sourcing of this chemical intermediate ensures that these specifications are met.

The primary application driving interest in N6-Benzoyladenine is its role as a cytokinin analogue and a plant growth regulator. In plant biology, it stimulates cell division and differentiation, promoting enhanced growth and development. This makes it invaluable in agricultural practices and horticulture, particularly in plant tissue culture for propagation purposes. Researchers can purchase N6-Benzoyladenine to fine-tune growth media for optimal plantlet development.

Furthermore, N6-Benzoyladenine serves as a crucial intermediate in the pharmaceutical industry. Its structure lends itself to modification for the synthesis of potential therapeutic agents. The ongoing research into its derivatives for various pharmacological activities underscores its importance in drug discovery pipelines. The availability of N6-Benzoyladenine as a research chemical supports these advanced investigations.

In summary, N6-Benzoyladenine is a compound of significant interest due to its well-defined chemical properties and its dual utility in both plant science and pharmaceutical research. Its applications as a growth regulator and a synthetic intermediate highlight its value to various scientific and industrial sectors. Ensuring access to quality N6-Benzoyladenine is fundamental for advancing research and development in these fields.