CAS107-30-2: A Thorough Investigation into Its Features
CAS107-30-2, also identified as 2,9-di-tert-butyl-1,10-phenanthroline N,N'-dioxide, presents a peculiar blend of physical properties. It’s a fluid at room conditions, typically appearing as a transparent solution. The molecular weight is roughly 150.22 g/mol, and it exhibits a substantial solubility in apolar media. Key properties include its potent oxidizing capabilities, making it a valuable reagent in various synthetic reactions, particularly in oxidation processes. Moreover, it’s somewhat stable under normal storage conditions, although it should be handled with prevention due to its potential instability. Hence, understanding these traits is essential for safe and efficient implementation.
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Understanding CAS107-30-2: Applications and Uses
This chemical compound, identified through CAS number 107-30-2, check here more generally known by 3,3'-Oxydipropionyl Dimethylamine, possesses a variety of practical applications and uses across various industries. It's primary function exists as a material inhibitor, particularly in industrial treatment systems or metalworking fluids. Further, the substance serves as a neutralizing agent, aiding to keep a specific pH point in numerous formulations.
- Used in cooling water systems to inhibit corrosion.
- Acts as a lubricant additive to enhance performance.
- Helps in certain production of specialty chemicals.
Therefore, understanding the properties and potential of CAS107-30-2 can be crucial for engineers and researchers involved in associated fields. The substance provides a useful tool for improving process efficiency and protecting critical equipment.
CAS107-30-2: Safe Aspects and Operation
Careful management of CAS107-30-2, also known as ethoxy cyclohexane carboxylate, requires strict adherence to safety guidelines . This chemical presents possible dangers, including skin irritation and visual harm. Consistently utilize proper individual shielding gear , such as protective wear, eye goggles , and a laboratory coat . Confirm sufficient aeration when using with this substance to lessen inhalation contact . Examine the safety data document (SDS) for specific data on preliminary treatment measures and urgent reaction methods.
A Chemistry Behind CAS107-30-2
Delving into CAS107-30-2's chemistry exposes a complex makeup. Scientifically designated with 4-(4-hydroxyphenyl)-2-methylbut-3-en-2-ol, the molecule contains a aromatic ring substituted with a phenolic group and a branched alcohol moiety. The unique configuration leads to particular chemical behaviors, like its tendency to participate in various organic reactions. Further analysis suggests the occurrence of hydrogen bonding, affecting the solubility and complete integrity .
CAS107-30-2: Synthesis and Manufacturing Processes
The common production route for CAS107-30-2, known as DiethylAminoEthylAdipate, involves the combination of 2-EthylAminoEthanol and AdipicAcid or its derivatives. Fabrication methods may include semi-batch vessels operating under elevated temperatures and acid conditions. Purification usually incorporates extraction or crystallization steps to reach desired grade of product. Other manufacturing methods could utilize various initial components or incorporate advanced processes.
Exploring the Potential of CAS107-30-2 in Research
Emerging studies are rapidly turning attention towards the specified compound and its potential uses within various research disciplines. Initial results indicate a significant function in domains such as medication research, substance engineering, and molecular reactions. Further investigation is essential to completely determine the intricate mechanisms involved and to realize its full research value. Specifically, researchers are analyzing its relationship with biological systems and assessing its potency in multiple in vitro and animal situations.