Isobutyraldehyde oxime is a chemical compound that has various practical applications in everyday life. It is commonly used as a building block in the synthesis of various chemicals, such as plasticizers and pharmaceuticals. Additionally, it is utilized in the production of pesticides and herbicides, as well as in the manufacture of coatings and adhesives. The versatility of Isobutyraldehyde oxime makes it an important component in numerous industries, contributing to the creation of products that we encounter and rely on in our daily lives.
Table of Contents:
- 💡 Commercial Applications
- ⚗️ Chemical & Physical Properties
- 🏭 Production & Procurement
- ⚠️ Safety Considerations
- 🔬 Potential Research Directions
- 🧪 Related Compounds
💡 Commercial Applications
Isobutyraldehyde oxime, also known as 2-Methyl-2-butanone oxime, finds various commercial and industrial applications due to its chemical properties. It is commonly used as a chemical intermediate in the production of pharmaceuticals, pesticides, and other organic compounds. Additionally, Isobutyraldehyde oxime is utilized in the manufacturing of rubber chemicals, antioxidants, and plasticizers, making it an essential component in the chemical industry.
In the realm of drug and medication applications, Isobutyraldehyde oxime plays a crucial role as a building block in the synthesis of pharmaceutical compounds. Its versatility as a chemical intermediate allows for the creation of diverse drug molecules with specific therapeutic properties. Researchers have explored the potential of Isobutyraldehyde oxime in drug design and discovery, showcasing its importance in the pharmaceutical industry’s efforts to develop effective medications for various medical conditions.
⚗️ Chemical & Physical Properties
Isobutyraldehyde oxime is a colorless to pale yellow liquid with a strong, pungent odor. At room temperature, it is typically found in a liquid state and its odor can be detected at low concentrations.
The molar mass of Isobutyraldehyde oxime is approximately 87.1 g/mol, with a density of around 0.94 g/cm3. This places it in the range of molar mass and density similar to common food items such as vinegar (60.05 g/mol, 1.05 g/cm3) and soy sauce (98 g/mol, 1.08 g/cm3).
Isobutyraldehyde oxime has a melting point of -28°C and a boiling point of 171°C. In comparison, common food items like sugar have a melting point of 186°C and a boiling point of 186°C. This places Isobutyraldehyde oxime within a similar range to some food items in terms of melting and boiling points.
Isobutyraldehyde oxime is sparingly soluble in water and has a low viscosity. This contrasts with common food items such as salt, which are highly soluble in water, and honey, which has a high viscosity.
🏭 Production & Procurement
Isobutyraldehyde oxime is typically produced by the reaction of isobutyraldehyde with hydroxylamine. This process results in the formation of Isobutyraldehyde oxime as a key intermediate compound.
Isobutyraldehyde oxime can be procured from chemical suppliers who specialize in providing high-quality chemicals for various industries. Once obtained, the compound can be transported in sealed containers to ensure its stability and prevent any potential contamination during transit.
The transportation of Isobutyraldehyde oxime should adhere to all safety regulations and guidelines to prevent any accidents or spills. Proper labeling and packaging of the compound are essential to ensure its safe handling and transportation to its destination.
⚠️ Safety Considerations
Safety considerations for Isobutyraldehyde oxime include its potential flammability and reactivity with oxidizing agents. When handling this compound, it is recommended to use appropriate personal protective equipment such as gloves, goggles, and a lab coat to prevent skin contact and inhalation of vapors. Isobutyraldehyde oxime should be stored in a cool, well-ventilated area away from sources of heat and ignition to reduce the risk of fire or explosion.
Hazard statements for Isobutyraldehyde oxime include “Causes skin irritation” and “May cause respiratory irritation.” These statements indicate the potential for this compound to irritate the skin upon contact and cause discomfort or inflammation in the respiratory system when inhaled. It is important to take necessary precautions to minimize exposure to Isobutyraldehyde oxime and to seek medical attention if any adverse effects occur.
Precautionary statements for Isobutyraldehyde oxime include “Wear protective gloves/eye protection/face protection” and “Avoid breathing dust/fume/gas/mist/vapors/spray.” These statements emphasize the importance of using appropriate personal protective equipment when handling this compound to prevent skin and eye irritation. Additionally, it is advised to work in a well-ventilated area and avoid breathing in any vapors or mist to reduce the risk of respiratory irritation.
🔬 Potential Research Directions
One potential research direction for Isobutyraldehyde oxime is the investigation of its use as a building block in organic synthesis. By exploring its reactivity and potential for functional group transformations, researchers may uncover new strategies for the preparation of complex organic molecules.
Another area of interest could be the development of Isobutyraldehyde oxime as a precursor for the synthesis of nitrogen-containing compounds. By studying its ability to undergo various reactions such as nitrosation, reduction, or rearrangement, scientists may identify novel routes to valuable nitrogen-containing chemical entities.
Furthermore, there is a possibility for research into the potential biological activities of Isobutyraldehyde oxime and its derivatives. By evaluating their interactions with biological systems, researchers may uncover new leads for the development of pharmaceuticals or agrochemicals with improved efficacy and selectivity.
🧪 Related Compounds
One similar compound to Isobutyraldehyde oxime based upon molecular structure is Acetone oxime. Acetone oxime has a similar structure to Isobutyraldehyde oxime, with the presence of an oxime functional group attached to a ketone. Acetone oxime is commonly used in industrial applications as a chemical intermediate for the production of various compounds.
Another compound similar to Isobutyraldehyde oxime is Butanone oxime. Butanone oxime shares a similar structure with Isobutyraldehyde oxime, possessing an oxime functional group attached to a ketone. Butanone oxime is utilized in various industries as a stabilizer for polymers and as a corrosion inhibitor due to its properties.
A third compound similar to Isobutyraldehyde oxime is Cyclohexanone oxime. Cyclohexanone oxime exhibits a comparable molecular structure to Isobutyraldehyde oxime, featuring an oxime functional group connected to a ketone. Cyclohexanone oxime is commonly used in the production of specialty chemicals and as an intermediate in the synthesis of pharmaceuticals.
