Unleashing the Chemical Identity of 9-Anthraldehyde: A Comprehensive Study of its Physical Properties
9-Anthraldehyde is a vital organic compound and plays a significant role in several chemical industries, ranging from dyes and pigments to pharmaceuticals. However, not much is known about this compound’s physical properties and chemical identity, making it an intriguing topic for researchers worldwide.
The physical properties of 9-Anthraldehyde play a crucial role in its activities, and it is vital to determine them to understand the compound’s behavior in various chemical reactions. Therefore, a comprehensive study of the physical properties of 9-Anthraldehyde has been carried out, which includes its melting and boiling points, molecular weight, and appearance.
The melting point of 9-Anthraldehyde has been determined to be 58-60 °C, and the boiling point of the compound is 278-280 °C. The molecular weight of 9-Anthraldehyde is 194.19 g/mol, and it appears as pale yellow crystals or powder. The compound is sparingly soluble in water but highly soluble in organic solvents such as ethanol, acetone, and ethyl acetate.
Furthermore, the chemical identity of 9-Anthraldehyde has also been closely studied to understand its behavior during various chemical reactions. The compound is a versatile building block in organic synthesis, and its chemical identity plays a vital role in synthesizing several essential products such as medicinal compounds, colorants for textile industries, and so on.
The synthetic pathways of 9-Anthraldehyde involve the oxidation of anthracene or anthraquinone derivatives. The reaction of anthracene with chromic acid in glacial acetic acid results in the formation of 9-Anthracenecarboxaldehyde, which, upon further oxidation, forms 9-Anthraldehyde. Alternatively, the reaction of anthraquinone with maleic anhydride in the presence of catalysts such as aluminum chloride or sulfuric acid results in the formation of 9-Anthraldehyde.
In conclusion, the comprehensive study of the physical properties and chemical identity of 9-Anthraldehyde has provided us with a better understanding of this vital organic compound. The data obtained from these studies can be used to enhance the synthesis of 9-Anthraldehyde and its derivatives and pave the way for various applications in chemical industries.
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