CAS107-30-2: A Detailed Investigation into Its Characteristics
CAS107-30-2, also identified as 2,9-di-tert-butyl-1,10-phenanthroline N,N'-dioxide, presents a peculiar mix of reactive properties. It’s a substance at room temperature, typically appearing as a transparent solution. The molecular weight is around 150.22 g/mol, and it exhibits a substantial solubility in common solvents. Key properties include its significant oxidizing capabilities, making it a useful reagent in various organic reactions, particularly in epoxidation processes. Additionally, it’s somewhat stable under usual storage situations, although it should be handled with prevention due to its potential hazard. Thus, understanding these attributes is vital for secure and effective usage.
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Understanding CAS107-30-2: Applications and Uses
A chemical compound, identified through CAS number 107-30-2, more generally known as 3,3'-Oxydipropionyl Dimethylamine, shows a variety of useful applications and uses throughout several industries. Its primary function lies as a material inhibitor, mainly in water treatment systems or metalworking fluids. Further, this substance acts as a neutralizing agent, helping to preserve a desired pH point in different mixtures.
- Used in hydraulic water systems to reduce corrosion.
- Serves as a fluid additive to improve efficiency.
- Assists in a creation of custom chemicals.
Therefore, grasping the properties and potential of CAS107-30-2 becomes vital for specialists and scientists operating in associated fields. A substance provides a valuable asset for improving process performance and preserving critical equipment.
CAS107-30-2: Safe Considerations and Operation
Correct management of CAS107-30-2, also known as ethyl cyclohexyl carboxylate, requires rigid adherence to safe guidelines . This substance presents likely hazards , including skin irritation and eye injury . Always wear appropriate private protective gear , such as protective wear, eye protectors, and a work coat . Verify adequate air flow when working with this compound to reduce inhalation contact . Examine the safe data sheet (SDS) for detailed data on initial assistance actions and emergency reaction methods.
A Chemistry Behind CAS107-30-2
Examining into CAS107-30-2's chemistry demonstrates a fascinating makeup. Scientifically designated as 4-(4-hydroxyphenyl)-2-methylbut-3-en-2-ol, its molecule possesses a aromatic ring linked with a hydroxyphenyl group and a branched alcohol moiety. This unique arrangement results in specific chemical characteristics , like its ability to participate in various synthetic reactions. More analysis suggests the presence of hydroxyl bonding, affecting its miscibility and overall durability.
CAS107-30-2: Synthesis and Manufacturing Processes
This common production method for CAS107-30-2, known by DiethylAminoEthylAdipate, employs some combination between 2-EthylAminoEthanol and AdipicAcid or its derivatives. Manufacturing methods can involve continuous vessels operating at elevated values & acid conditions. Refinement often requires separation or precipitation steps to achieve a grade of compound. Other synthetic methods might employ different starting ingredients or employ novel processes.
Investigating the Scope of The Substance in Scientific Study
Emerging research are significantly directing focus towards CAS107-30-2 and its possible uses within several research fields. Preliminary findings demonstrate a significant function in fields such as medication discovery, materials science, and molecular processes. Additional study is essential to fully understand the detailed website mechanisms involved and to realize its full investigative value. Particularly, scientists are analyzing its binding with living molecules and assessing its potency in different in vitro and live systems.