What is the melting point of 9 - Acridone?
As a supplier of 9 - Acridone, I often receive inquiries about its various properties, and one of the most frequently asked questions is about its melting point. In this blog post, I will delve into the melting point of 9 - Acridone, explore the factors that can affect it, and also introduce some related products in our portfolio.
Understanding 9 - Acridone
9 - Acridone is a heterocyclic organic compound with a molecular formula of C₁₃H₉NO. It has a tricyclic structure consisting of two benzene rings fused to a central pyridone ring. This compound has attracted significant attention in various fields, including organic synthesis, materials science, and pharmaceutical research, due to its unique chemical and physical properties.
The Melting Point of 9 - Acridone
The melting point of a pure substance is a characteristic physical property that can be used to identify it and assess its purity. For 9 - Acridone, the reported melting point typically ranges from 353 - 356 °C [1]. This relatively high melting point is consistent with its molecular structure. The strong intermolecular forces, such as hydrogen bonding and π - π stacking interactions between the planar aromatic rings, contribute to the stability of the solid - state structure and require a significant amount of energy to break these forces and convert the solid into a liquid.
However, it's important to note that the actual melting point of a sample of 9 - Acridone can deviate from the reported range. Several factors can influence the melting point, including:
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Purity: Impurities in the sample can lower the melting point and broaden the melting range. Even small amounts of contaminants can disrupt the regular crystal lattice structure of 9 - Acridone, making it easier for the molecules to break free from their fixed positions and transition to the liquid state. As a supplier, we take great care to ensure the high purity of our 9 - Acridone products through advanced purification techniques, which helps to maintain the melting point within the expected range.
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Crystal Structure: Different crystal forms or polymorphs of 9 - Acridone can have different melting points. Polymorphism occurs when a compound can exist in multiple crystal structures with different arrangements of molecules. These polymorphs may have different intermolecular forces and packing efficiencies, resulting in variations in melting behavior. Our research and production processes are designed to control the crystal structure of 9 - Acridone to ensure consistent quality and melting point characteristics.
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Measurement Conditions: The method and conditions used to measure the melting point can also affect the results. Factors such as the heating rate, the type of melting point apparatus, and the sample size can all introduce some degree of variability. To obtain accurate and reproducible melting point data, we follow standardized measurement procedures using high - quality melting point instruments.
Related Products in Our Portfolio
In addition to 9 - Acridone, we also offer a range of related nitrogen - heterocyclic photosensitizers. These products have similar structural features and potential applications. Here are some examples:
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C21H18BrN CAS:1319720 - 64 - 3, 2 - Bromo - 9,10 - dihydro - 9,9 - dimethyl - 10 - phenylacridine: This compound has unique photophysical properties and can be used in the field of photochemistry. The presence of the bromine atom and the specific substitution pattern on the acridine ring contribute to its distinct reactivity and performance.
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98% C19H13NO 10 - Phenyl - 9(10H) - acridone, CAS: 5472 - 23 - 1: With a phenyl group attached to the nitrogen atom of the acridone ring, this compound exhibits enhanced solubility and different electronic properties compared to 9 - Acridone. It has potential applications in organic light - emitting diodes (OLEDs) and other optoelectronic devices.
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10 - Ethyl - 9(10H) - acridone, CAS: 2207 - 41 - 2 C15H13NO: The introduction of an ethyl group at the 10 - position of the acridone ring modifies its steric and electronic properties. This compound can be used as a building block in organic synthesis and has shown promise in pharmaceutical research.
Why Choose Our Products
As a reliable supplier of 9 - Acridone and related compounds, we are committed to providing high - quality products and excellent customer service. Our products are manufactured under strict quality control standards to ensure their purity, consistency, and performance. We have a team of experienced chemists and researchers who are dedicated to continuous improvement and innovation in our production processes.
Whether you are conducting academic research, developing new materials, or working on pharmaceutical projects, our products can meet your specific requirements. We also offer customized synthesis services to provide tailor - made solutions for your unique needs.
Contact Us for Procurement
If you are interested in purchasing 9 - Acridone or any of our related products, we encourage you to contact us for procurement and further discussions. Our sales team is ready to assist you with product information, pricing, and order processing. We look forward to establishing long - term partnerships with you and contributing to the success of your projects.
References
[1] The Merck Index, 15th Edition.


In conclusion, the melting point of 9 - Acridone is an important characteristic that reflects its molecular structure and purity. By understanding the factors that can affect the melting point, we can better control the quality of our products. Our company offers a range of high - quality 9 - Acridone and related nitrogen - heterocyclic photosensitizers, and we are eager to work with you on your next project.
