The compound with CAS 19524 - 06 - 2 is a chemical entity that has drawn the attention of many in the scientific and industrial communities. As a reliable supplier of this compound, I understand the significance of various properties, especially the melting point, for those who are considering its use in different applications. In this blog, we'll delve into what the melting point of the compound with CAS 19524 - 06 - 2 means, how it can be determined, and why it matters in practical scenarios.
Understanding the Concept of Melting Point
The melting point is a fundamental physical property of a compound. It is defined as the temperature at which a solid substance changes its state to a liquid at a given pressure, typically at standard atmospheric pressure (1 atm). This transition occurs when the thermal energy of the molecules in the solid is sufficient to overcome the intermolecular forces holding them in a fixed position in the crystal lattice.
For the compound with CAS 19524 - 06 - 2, knowing its melting point is crucial for several reasons. Firstly, it serves as an important characteristic for identification purposes. Each pure compound has a unique melting point range under specific conditions. If the melting point of a sample deviates significantly from the known value, it could indicate impurities in the sample or that it is not the expected compound at all.
Secondly, the melting point has practical implications in various industrial processes. For example, in the pharmaceutical industry, the melting point can affect the formulation and stability of drugs. Compounds with low melting points may be more difficult to handle during manufacturing, as they may melt during processing steps such as granulation or compression. On the other hand, high - melting - point compounds may require more energy to dissolve or process.
Determining the Melting Point of the Compound with CAS 19524 - 06 - 2
There are several methods available for determining the melting point of a compound. One of the most common methods is the capillary tube method. In this method, a small amount of the compound is packed into a capillary tube. The tube is then attached to a thermometer and placed in a heating device, such as a melting point apparatus. The temperature is gradually increased at a controlled rate, and the observer records the temperature at which the first signs of melting (the start of the melting range) and complete melting (the end of the melting range) occur.
Another method is the differential scanning calorimetry (DSC). DSC measures the difference in the amount of heat required to increase the temperature of a sample and a reference material as a function of temperature. When the sample melts, it absorbs heat, and this endothermic event is detected as a peak in the DSC curve. The peak temperature can be used to determine the melting point of the compound.
It's important to note that the melting point determination should be carried out under carefully controlled conditions. Factors such as the heating rate, the purity of the sample, and the calibration of the measuring equipment can all affect the accuracy of the results.
The Significance of the Melting Point in Different Industries
Pharmaceutical Industry
In the pharmaceutical field, the compound with CAS 19524 - 06 - 2 may be used as an active pharmaceutical ingredient (API) or an excipient. The melting point of the API can influence its bioavailability. For example, if the API has a high melting point, it may dissolve more slowly in the body, leading to a slower onset of action. On the other hand, a low - melting - point API may be more prone to degradation during storage or processing.
Excipients, which are used to formulate drugs, also need to have appropriate melting points. They should be compatible with the API and other excipients in the formulation. If an excipient has a melting point that is too close to the processing temperature, it may cause problems such as sticking or caking during manufacturing.
Chemical Industry
In the chemical industry, the melting point of the compound with CAS 19524 - 06 - 2 can affect its reactivity. Compounds in the liquid state are generally more reactive than those in the solid state because the molecules are more mobile and can interact more easily. Therefore, the melting point can be used to control the reaction conditions. For example, if a reaction requires the compound to be in a liquid state, the temperature can be adjusted to above its melting point.
Food Industry
Although the direct application of the compound with CAS 19524 - 06 - 2 in the food industry may not be as common as in the pharmaceutical or chemical industries, understanding its melting point can still be relevant. For example, if the compound is used as a food additive or a flavoring agent, its melting point can affect its stability and performance in food products. Compounds with low melting points may volatilize more easily during food processing or storage, leading to a loss of flavor or functionality.
Comparison with Other Related Compounds
To better understand the properties of the compound with CAS 19524 - 06 - 2, it can be useful to compare its melting point with other related compounds. For instance, Gamma Aminobutyric Acid (GABA) CAS#56 - 12 - 2 is a well - known compound in the food and pharmaceutical industries. GABA has a melting point of around 202 - 204°C. Comparing this with the melting point of the compound with CAS 19524 - 06 - 2 can give us insights into their molecular structures and intermolecular forces.
Another example is Galactooligosaccharides (GOS). GOS is a prebiotic commonly used in the food industry. Its melting point and other physical properties are different from those of the compound with CAS 19524 - 06 - 2, which can influence their applications and processing requirements.
Nicergoline CAS#27848 - 84 - 6 is a pharmaceutical compound. Its melting point is an important factor in its formulation and quality control. By comparing the melting points of these compounds, we can see the diversity of physical properties among different chemical substances and how they are tailored to their specific applications.
Our Role as a Supplier
As a supplier of the compound with CAS 19524 - 06 - 2, we are committed to providing high - quality products. We ensure that our products meet the strictest quality standards, including having the correct melting point within the specified range. Our quality control team uses advanced analytical techniques, such as DSC and the capillary tube method, to accurately determine the melting point of each batch of the compound.
We also understand that different customers may have different requirements for the compound. Whether you are in the pharmaceutical, chemical, or food industry, we can work with you to provide customized solutions. Our technical support team is always available to answer your questions about the compound's properties, including its melting point, and to help you optimize its use in your applications.
Contact for Procurement and Discussion
If you are interested in purchasing the compound with CAS 19524 - 06 - 2 or have any questions about its melting point or other properties, we encourage you to contact us. We look forward to discussing your specific needs and providing you with the best possible solutions.
References
- Atkins, P., & de Paula, J. (2006). Physical Chemistry. Oxford University Press.
- Skoog, D. A., West, D. M., Holler, F. J., & Crouch, S. R. (2013). Fundamentals of Analytical Chemistry. Cengage Learning.
- Lide, D. R. (Ed.). (2008). CRC Handbook of Chemistry and Physics. CRC Press.