When diving into the world of chemical compounds, understanding their properties is essential for researchers, manufacturers, and enthusiasts alike. One such compound that has garnered attention is CAS 2124221-12-9 pKa. This specific CAS number corresponds to a chemical compound with unique properties, particularly related to its pKa value. In this article, we’ll explore the details of this compound, its pKa value, and how this impacts its usage across various fields.
What is CAS 2124221-12-9?
CAS 2124221-12-9 refers to trans-(4-(methylamino)cyclohexyl)methanesulfonic acid, a chemical compound characterized by its distinct molecular structure and chemical properties. The full molecular formula of this compound is C8H17NO3S, and it has a molecular weight of 207.29 g/mol. Its structure consists of a cyclohexane ring attached to a methylamino group and a methanesulfonic acid group.
The molecular structure of CAS 2124221-12-9 plays a crucial role in its chemical reactivity and interaction with different substances, particularly when it dissociates in solution.
This compound is of particular interest in the pharmaceutical and chemical industries due to its functionality in various reactions. Understanding the pKa of CAS 2124221-12-9 is critical for those working with this compound, as it plays a significant role in its behavior in solution.
What is pKa and Why is it Important?
The pKa value of a compound is an important chemical property that indicates the strength of an acid in solution. It is the pH at which half of the acid molecules are dissociated into their conjugate base. A lower pKa value suggests a stronger acid, while a higher pKa suggests a weaker acid.
For CAS 2124221-12-9, the pKa value is approximately 1.75 ± 0.50, which indicates that it is a moderately strong acid. The precise pKa value helps researchers determine how the compound will behave in different environments, especially when considering its solubility, reactivity, and potential applications. Understanding the pKa value of CAS 2124221-12-9 pKa allows for better handling and application of this compound in various industries.
How Does the pKa of CAS 2124221-12-9 Affect its Use?
The pKa of CAS 2124221-12-9 pKa has direct implications for its chemical behavior, particularly its reactivity and stability in various pH environments. In the case of CAS 2124221-12-9, the pKa of 1.75 suggests that this compound is highly acidic, which could affect its solubility in different solvents.
- Solubility and Reactivity: The low pKa value suggests that CAS 2124221-12-9 pKa is likely to dissociate in more acidic environments. This property can influence its use in chemical reactions where pH plays a critical role. For example, in pharmaceuticals, the solubility of a compound directly affects its bioavailability, meaning that CAS 2124221-12-9 could be effective in formulations requiring solubility at low pH levels.
- Pharmaceutical Applications: Given its structural characteristics and pKa value, CAS 2124221-12-9 pKa may be used in drug formulations where an acidic medium is necessary. The compound’s ability to dissociate into ions in acidic conditions could play a role in targeted drug delivery systems, particularly for drugs that require a lower pH for absorption or activation.
- Chemical Synthesis: The pKa also influences the compound’s role in various chemical syntheses. The acid strength could make CAS 2124221-12-9 pKa suitable for reactions where acidity or protonation is required, such as in the preparation of certain sulfonic acid derivatives or in the production of other specialty chemicals.
Safety and Handling of CAS 2124221-12-9
When dealing with any chemical compound, understanding its safety profile is critical. For CAS 2124221-12-9, the compound has been classified with the following hazard statements:
- Harmful if swallowed: Ingestion of this compound can lead to harmful effects.
- Causes skin and eye irritation: Direct contact can result in irritation.
- May cause respiratory irritation: Inhalation of its vapors or dust should be avoided.
It is crucial to handle CAS 2124221-12-9 with appropriate personal protective equipment (PPE), including gloves, safety goggles, and a lab coat, to prevent direct exposure. In addition, ensure adequate ventilation in areas where this compound is used.
Applications in the Chemical and Pharmaceutical Industries
The chemical properties of CAS 2124221-12-9 pKa, particularly its pKa value, make it useful in a range of applications. In the pharmaceutical industry, this compound might be considered for inclusion in formulations that require acidic agents. It could also be valuable in the development of drugs that target specific biological pathways, particularly in areas such as drug delivery systems and biosynthesis.
In chemical research, CAS 2124221-12-9 pKa may be utilized for synthesizing other sulfonic acid derivatives or for reactions where acidic conditions are necessary. Its reactivity and solubility properties make it versatile for laboratory use, especially in the development of new materials or chemical processes.
Understanding the Importance of pKa in Chemical Research
Researchers working with any compound will need to understand its pKa value to predict how it will behave in different chemical environments. In the case of CAS 2124221-12-9 pKa, its relatively low pKa value suggests that it will perform well in acidic conditions. This can be crucial for researchers who are looking to manipulate the compound’s properties for specific purposes, such as developing new drugs or optimizing chemical reactions.
By understanding how the pKa of CAS 2124221-12-9 interacts with other substances, researchers can improve the efficiency and effectiveness of their processes. Whether it’s in drug formulation, chemical synthesis, or pharmaceutical development, knowing the pKa value of this compound is key to leveraging its full potential.
FAQs About CAS 2124221-12-9 pKa
What is the pKa value of CAS 2124221-12-9 pKa?
The pKa value of CAS 2124221-12-9 pKa is approximately 1.75 ± 0.50, indicating it is a moderately strong acid.
What industries use CAS 2124221-12-9 pKa?
CAS 2124221-12-9 pKa is used in the pharmaceutical and chemical industries, particularly in drug formulations and chemical synthesis.
How does the pKa of CAS 2124221-12-9 pKa affect its reactivity?
The pKa of 1.75 suggests that CAS 2124221-12-9 pKa is highly acidic, which influences its reactivity in acidic environments and affects its solubility in such conditions.
Can CAS 2124221-12-9 pKa be harmful?
Yes, CAS 2124221-12-9 pKa can be harmful if swallowed, causes skin and eye irritation, and may irritate the respiratory system.
Why is the pKa value important for CAS 2124221-12-9 pKa?
The pKa value helps predict how the compound will behave in different pH environments, influencing its solubility, stability, and application in chemical reactions.
Conclusion
The pKa of CAS 2124221-12-9 pKa plays a pivotal role in determining its behavior in various chemical and pharmaceutical applications. With its relatively low pKa value, this compound demonstrates useful properties in acidic environments, making it an important element in chemical research and drug development. Whether you’re working in the lab or formulating new pharmaceutical products, understanding the significance of the pKa of CAS 2124221-12-9 pKa will guide your approach to using this compound effectively.
