Exploring the Chemical Properties and Synthesis of 9-Anthracenemethanol
Understanding the fundamental chemical properties and synthesis routes of a compound is crucial for its effective utilization in various industries. 9-Anthracenemethanol (CAS: 1468-95-7) is a fine chemical characterized by its distinct physical and chemical attributes, making it valuable for a range of applications, most notably in the pharmaceutical and dye sectors.
Physically, 9-Anthracenemethanol typically presents as a yellow crystalline powder. Its molecular formula is C15H12O, and it possesses a molecular weight of approximately 208.26 g/mol. Key physical parameters such as melting point (typically 160-164°C) and boiling point (around 423.4°C at 760 mmHg) are important for process design and handling.
Chemically, the molecule features an anthracene core, a polycyclic aromatic hydrocarbon, with a hydroxymethyl group (-CH2OH) attached at the 9-position. This hydroxyl group imparts reactivity, allowing 9-Anthracenemethanol to undergo various chemical transformations. For instance, it is stable under normal conditions but incompatible with strong oxidizing agents. Its solubility in organic solvents further aids its use in synthesis.
The synthesis of 9-Anthracenemethanol is primarily achieved through the reduction of 9-anthracenecarboxaldehyde. A common and efficient method involves using reducing agents like sodium borohydride (NaBH4) in an alcoholic solvent, such as ethanol. This reaction proceeds smoothly, typically at room temperature, and yields high-purity 9-Anthracenemethanol. The process is amenable to scale-up, ensuring a reliable supply for industrial needs. Researchers often seek this compound when looking to buy 9-Anthracenemethanol CAS 1468-95-7 due to its well-defined synthesis and predictable behavior.
The detailed synthesis protocols often involve careful control of reaction conditions, followed by purification steps such as chromatography or recrystallization to achieve the desired purity. As a dedicated supplier of fine chemicals, our focus is on optimizing these synthesis pathways to deliver a consistent, high-quality product. This commitment is essential for clients who depend on 9-Anthracenemethanol as a critical building block in their organic synthesis or as a key intermediate for pharmaceuticals and dyes.
In summary, the yellow crystalline powder form, coupled with its reactive hydroxyl group and stable aromatic core, defines the chemical identity of 9-Anthracenemethanol. Its straightforward synthesis route further enhances its accessibility and importance as a versatile fine chemical.
Physically, 9-Anthracenemethanol typically presents as a yellow crystalline powder. Its molecular formula is C15H12O, and it possesses a molecular weight of approximately 208.26 g/mol. Key physical parameters such as melting point (typically 160-164°C) and boiling point (around 423.4°C at 760 mmHg) are important for process design and handling.
Chemically, the molecule features an anthracene core, a polycyclic aromatic hydrocarbon, with a hydroxymethyl group (-CH2OH) attached at the 9-position. This hydroxyl group imparts reactivity, allowing 9-Anthracenemethanol to undergo various chemical transformations. For instance, it is stable under normal conditions but incompatible with strong oxidizing agents. Its solubility in organic solvents further aids its use in synthesis.
The synthesis of 9-Anthracenemethanol is primarily achieved through the reduction of 9-anthracenecarboxaldehyde. A common and efficient method involves using reducing agents like sodium borohydride (NaBH4) in an alcoholic solvent, such as ethanol. This reaction proceeds smoothly, typically at room temperature, and yields high-purity 9-Anthracenemethanol. The process is amenable to scale-up, ensuring a reliable supply for industrial needs. Researchers often seek this compound when looking to buy 9-Anthracenemethanol CAS 1468-95-7 due to its well-defined synthesis and predictable behavior.
The detailed synthesis protocols often involve careful control of reaction conditions, followed by purification steps such as chromatography or recrystallization to achieve the desired purity. As a dedicated supplier of fine chemicals, our focus is on optimizing these synthesis pathways to deliver a consistent, high-quality product. This commitment is essential for clients who depend on 9-Anthracenemethanol as a critical building block in their organic synthesis or as a key intermediate for pharmaceuticals and dyes.
In summary, the yellow crystalline powder form, coupled with its reactive hydroxyl group and stable aromatic core, defines the chemical identity of 9-Anthracenemethanol. Its straightforward synthesis route further enhances its accessibility and importance as a versatile fine chemical.
Perspectives & Insights
Future Origin 2025
“This commitment is essential for clients who depend on 9-Anthracenemethanol as a critical building block in their organic synthesis or as a key intermediate for pharmaceuticals and dyes.”
Core Analyst 01
“In summary, the yellow crystalline powder form, coupled with its reactive hydroxyl group and stable aromatic core, defines the chemical identity of 9-Anthracenemethanol.”
Silicon Seeker One
“Its straightforward synthesis route further enhances its accessibility and importance as a versatile fine chemical.”