This bulk supply of the chemical reagent weighs one hundred grams. It is a colorless substance with a pungent odor. Propionyl Chloride plays a role in various chemical reactions, including the synthesis of diverse organic compounds. Always handle with care as Propionyl Chloride is irritating to the human body.
CAS 79-03-8 Physical and Chemical Properties
CAS number 79-03-8, formally recognized as cyclohexanone, possesses a myriad of interesting physical and chemical properties. This colorless to light yellow substance exhibits a characteristic fragrance. At standard conditions, its melting point is roughly -88°C while the boiling point is roughly 158°C.
- This exhibits a density of 0.99 g/cm³ and its volatility is low
- 2-Cyclohexenone is soluble in a variety of solvents including water, ethanol, and acetone.
- Cyclohexanone reacts in the presence of various substances under certain situations, leading to various transformations
Safety Data Sheet for
This Information Sheet provides essential information regarding the attributes of Propionyl Chloride (CH3CH2COCl). It summarizes the potential hazards associated with this chemical, along with appropriate safety precautions for use. Users should carefully review this document to ensure a safe and workplace.
- Key aspects covered in this document include: chemical identification, hazards identification, first aid measures, firefighting measures, accidental release measures, handling and storage, exposure controls/personal protection, physical and chemical properties, stability and reactivity, toxicological information, ecological information, disposal considerations, regulatory information, transportation information
Applications of Propionyl Chloride in Organic Synthesis
Propionyl chloride is a versatile reagent in organic synthesis, owing to its functional acyl group. It can be readily incorporated in a variety of reactions to construct complex molecules with diverse skeletons. One prominent application is the preparation of ketones through acylation reactions, where propionyl chloride couples with alcohols or amines. Furthermore, it plays a crucial role in the production of esters by reacting with alcohols under appropriate conditions.
The application of propionyl chloride extends to the synthesis of amides, where it transforms with amines. This versatile reagent also finds utility in the modification of existing organic molecules, such as the introduction of acetyl groups into molecules.
- Examples of propionyl chloride's applications in organic synthesis comprise:
- A synthesis of pharmaceuticals, such as ibuprofen.
- The preparation of agrochemicals, like pesticides and herbicides.
- An construction of fragrances and flavors.
Guidelines for Managing Propionyl Chloride (CH3CH2COCl)
Propionyl chloride presents a highly reactive chemical substance that demands careful handling and storage practices to avoid potential hazards. Before handling propionyl chloride, ensure you wear appropriate personal protective equipment comprising chemical-resistant gloves, eye protection, and a lab coat.
Store propionyl chloride in a well-ventilated area, distant to incompatible materials such as strong oxidizing agents and bases. Ensure proper ventilation in the storage room to minimize the risk of vapor buildup.
When transferring propionyl chloride, use appropriate equipment, such as a glass transfer pipette or Teflon tubing, and avoid contact with skin.
In case of accidental exposure, promptly wash the affected area with plenty of water for at least 30 minutes.
It is crucial to consult the material safety data sheet (MSDS) for detailed information on handling, storage, and emergency procedures related to propionyl here chloride.
Examining the Properties of Propionyl Chloride (CAS 79-03-8)
Propionyl chloride, with the CAS number 79.03.8, is a reactive chemical compound widely utilized in various industrial processes. Its physical properties make it an important reagent for the synthesis of diverse products. To ensure its safe and effective application, detailed analytical characterization is necessary.
Various experimental techniques are employed to comprehensively analyze propionyl chloride. These include chromatographic such as gas chromatography-mass spectrometry (GC-MS), which provide valuable information about its composition. Additionally, melting point measurements contribute to a complete understanding of this versatile compound.
- Physicochemical characterization techniques are instrumental in identifying the functional groups and structure of propionyl chloride.
- Separation methods allow for the separation and quantification of impurities present in propionyl chloride samples.
- Melting point determination provides insights into the thermal stability and properties of propionyl chloride.
The results obtained from these analytical characterizations support the proper handling, storage, and application of propionyl chloride in various industrial settings. By understanding its chemical and physical properties, safety precautions can be implemented effectively, minimizing potential hazards.