8-Methylquinoline, a derivative of quinoline, possesses various applications in everyday life. This organic compound is commonly used in the pharmaceutical industry as a building block for the synthesis of different drugs, particularly antimalarial medications. Additionally, 8-Methylquinoline is utilized in the production of dyes, rubber chemicals, and corrosion inhibitors. Its unique chemical properties make it a valuable tool in research and development across several industries, further highlighting its relevance in everyday life.
Table of Contents:
- 💡 Commercial Applications
- ⚗️ Chemical & Physical Properties
- 🏭 Production & Procurement
- ⚠️ Safety Considerations
- 🔬 Potential Research Directions
- 🧪 Related Compounds
💡 Commercial Applications
8-Methylquinoline, a chemical compound with the molecular formula C10H9N, has several commercial and industrial applications. It is commonly used as a precursor in the production of pesticides, herbicides, and fungicides, due to its ability to act as a potent biocide. Additionally, this compound is utilized in the manufacturing of dyes and pigments for textiles, plastics, and other industrial products due to its fluorescent properties.
In the realm of drug and medication applications, 8-Methylquinoline plays a significant role. It is used as a building block in the synthesis of various pharmaceutical agents, including antimalarial drugs and antitumor agents. The compound’s unique chemical structure allows for the creation of molecules with specific biological activities, making it a valuable component in medicinal chemistry research and drug development.
Overall, the versatile properties of 8-Methylquinoline make it a valuable asset in both commercial and industrial sectors, as well as in the pharmaceutical industry. Its diverse applications highlight its importance in the realm of chemical synthesis and product development, showcasing its potential for a wide range of uses in various fields.
⚗️ Chemical & Physical Properties
8-Methylquinoline is a colorless liquid with a distinct odor often described as pungent or sharp. It is commonly used in the manufacture of dyes and pharmaceuticals due to its unique chemical properties.
With a molar mass of 143.20 g/mol and a density of 1.092 g/cm3, 8-Methylquinoline is relatively lightweight and less dense compared to common food items like sugar or salt. This can affect its behavior in chemical reactions and physical properties.
8-Methylquinoline has a melting point of -15°C and a boiling point of 241°C. These values are significantly higher than those of many common food items, which typically have lower melting and boiling points. This can impact the stability and handling of 8-Methylquinoline in various applications.
Despite its low solubility in water, 8-Methylquinoline exhibits moderate viscosity, which can affect its dispersion and mixing properties in liquid solutions. In comparison to common food items like sugar or salt, 8-Methylquinoline may have different solubility and viscosity characteristics when interacting with water.
🏭 Production & Procurement
8-Methylquinoline, a compound commonly used in the pharmaceutical and chemical industries, is primarily produced through the alkylation of quinoline with propionaldehyde. This process involves the use of a catalyst and typically results in the formation of 8-Methylquinoline as a product.
Procuring 8-Methylquinoline can be achieved through several methods, including purchasing from chemical suppliers or pharmaceutical companies that produce and sell this compound. Once procured, 8-Methylquinoline can be transported in liquid form in suitable containers that are properly labeled and sealed to prevent leaks or spills during shipment.
Transporting 8-Methylquinoline requires adherence to strict safety regulations due to its flammability and potential health hazards. Properly trained personnel should handle the loading and unloading of containers, ensuring compliance with transportation guidelines set forth by regulatory agencies in order to prevent accidents or environmental harm.
⚠️ Safety Considerations
Safety considerations for 8-Methylquinoline include the potential for skin and eye irritation upon contact, as well as respiratory irritation if inhaled. It is important to handle this chemical in a well-ventilated area and to wear appropriate personal protective equipment, such as gloves and safety goggles, to minimize the risk of exposure. Additionally, 8-Methylquinoline should be stored in a tightly sealed container away from sources of ignition and incompatible materials.
Hazard statements for 8-Methylquinoline include being harmful if swallowed, causing skin irritation, causing serious eye damage, and being harmful if inhaled. It is important to avoid ingestion, minimize skin contact, and prevent inhalation of this compound to reduce the risk of adverse health effects. If exposure does occur, seek medical attention immediately and provide relevant information on the material safety data sheet for proper treatment.
Precautionary statements for 8-Methylquinoline include wearing protective gloves and eye protection, avoiding breathing vapors or dust, and washing hands thoroughly after handling. In case of skin contact, remove contaminated clothing and rinse skin with water. In case of eye contact, rinse cautiously with water for several minutes while removing contact lenses, if present. If inhaled, move to fresh air and seek medical attention if breathing difficulties persist.
🔬 Potential Research Directions
One potential research direction for 8-Methylquinoline is its potential as a building block for the synthesis of novel materials with unique properties, such as polymers or liquid crystals. Researchers may explore the functionalization of the methyl group to tune the physicochemical properties of the resulting compounds.
Another area of interest could be the investigation of the biological activities of 8-Methylquinoline and its derivatives. This could involve studying its potential as a drug candidate for various diseases or its role in biological processes. Understanding the structure-activity relationships of 8-Methylquinoline analogues could lead to the development of new pharmaceuticals.
Furthermore, the exploration of the chemical reactivity and reactivity patterns of 8-Methylquinoline could provide insights into its potential applications in organic synthesis. Researchers may investigate new reactions involving 8-Methylquinoline as a substrate, as well as its reactivity towards different functional groups. This could lead to the development of new synthetic methodologies using 8-Methylquinoline as a key building block.
🧪 Related Compounds
One similar compound to 8-Methylquinoline is 6-Methylquinoline. This compound differs from 8-Methylquinoline in the position of the methyl group on the quinoline ring, resulting in a slightly different molecular structure. Despite this difference, both compounds share similar chemical properties due to the presence of the quinoline ring system.
Another similar compound is 5-Methylquinoline. Like 8-Methylquinoline, this compound has a methyl group attached to the quinoline ring. The position of the methyl group on the ring distinguishes 5-Methylquinoline from 8-Methylquinoline, but they exhibit comparable characteristics due to the shared quinoline structure.
Furthermore, 7-Methylquinoline is another compound that bears resemblance to 8-Methylquinoline. This compound features a methyl group attached at a different position on the quinoline ring. Despite this structural variance, both compounds exhibit similar chemical behavior owing to the quinoline framework common to both molecules.
