For professionals in the chemical industry, understanding the precise specifications of raw materials is non-negotiable. Anthraquinone, identified by its CAS number 84-65-1, is a prime example of a compound whose detailed chemical properties dictate its suitability for various industrial processes. As a widely recognized synthesis intermediate, its purity and physical attributes are thoroughly documented.

The molecular formula for Anthraquinone is C14H8O2, a fact crucial for chemists and process engineers. This structure underpins its reactivity and its role as a precursor in numerous chemical reactions. The compound is predominantly supplied as a powder, with a color spectrum that can range from yellow-green to khaki to tan. This physical characteristic, along with its high purity, typically exceeding 99%, is a key factor in its selection by high purity anthraquinone powder suppliers and their clients.

The melting point of Anthraquinone is a significant parameter, reported to be between 284-286 °C. This high melting point indicates its thermal stability, a desirable trait for many high-temperature chemical processes. Similarly, its boiling point of 379-381 °C further defines its behavior under varying thermal conditions. These precisely defined anthraquinone synthesis intermediate properties are vital for accurate process design and control.

The solubility of Anthraquinone is notably low, with a reported value of 0.00007 g/l. This characteristic influences how it is handled and reacted in different solvent systems. For manufacturers relying on this compound, understanding these solubility characteristics is part of grasping the broader anthraquinone industrial uses.

In essence, the comprehensive specifications of Anthraquinone, from its chemical formula C14h8o2 to its physical form and thermal properties, are critical for its effective industrial application. By providing materials that meet these exact requirements, anthraquinone powder specifications become a key enabler of successful chemical manufacturing.