Exploring the Chemical Properties and Applications of 4-Nitrocumene
4-Nitrocumene, also known by its IUPAC name 1-Isopropyl-4-nitrobenzene, is a chemical compound that plays a significant role in various industrial applications, most notably as an intermediate in the synthesis of agrochemicals. This article delves into the chemical properties, handling, and primary uses of this important organic compound.
Chemically, 4-Nitrocumene (CAS No: 1817-47-6) is characterized by its molecular formula C9H11NO2 and a molecular weight of 165.189 g/mol. It typically presents as a yellow liquid, with a density of approximately 1.1 g/cm³. Its boiling point is reported at 236.4 °C at 760 mmHg, and it has a flash point of around 99.9 °C, indicating its classification as a combustible liquid.
The stability of 4-Nitrocumene is a key attribute for its industrial use. It is noted as being stable under normal conditions but incompatible with strong bases and oxidizing agents. This means that proper storage and handling procedures are essential to maintain its integrity and safety. Recommended storage involves keeping it in a cool, dry, and well-ventilated place, with containers tightly sealed.
The most prominent application of 4-Nitrocumene is its use as a pesticide intermediate, specifically in the production of the herbicide Isoproturon. Isoproturon is crucial for agricultural practices, aiding in the control of weeds that compete with crops for resources. The synthesis pathway from 4-Nitrocumene to Isoproturon is a well-established process in the agrochemical industry.
Beyond its primary role, the chemical structure of 4-Nitrocumene suggests potential applications in broader organic synthesis. As a nitroaromatic compound with an isopropyl substituent, it can serve as a versatile building block for the creation of more complex molecules. Companies specializing in fine chemical production might utilize 4-Nitrocumene in research and development for novel compounds.
For manufacturers, ensuring the purity of 4-Nitrocumene, typically assayed at ≥99.0%, is critical. This high level of purity directly impacts the yield and quality of the downstream products, such as Isoproturon. Sourcing this intermediate from reliable chemical intermediate suppliers is a strategic decision for businesses in the agrochemical and fine chemical sectors.
In summary, 4-Nitrocumene is a compound of considerable industrial importance. Its well-defined chemical properties, coupled with its essential role in herbicide synthesis, make it a sought-after intermediate. Understanding its characteristics and proper handling is key for safe and effective utilization in chemical manufacturing processes.
Chemically, 4-Nitrocumene (CAS No: 1817-47-6) is characterized by its molecular formula C9H11NO2 and a molecular weight of 165.189 g/mol. It typically presents as a yellow liquid, with a density of approximately 1.1 g/cm³. Its boiling point is reported at 236.4 °C at 760 mmHg, and it has a flash point of around 99.9 °C, indicating its classification as a combustible liquid.
The stability of 4-Nitrocumene is a key attribute for its industrial use. It is noted as being stable under normal conditions but incompatible with strong bases and oxidizing agents. This means that proper storage and handling procedures are essential to maintain its integrity and safety. Recommended storage involves keeping it in a cool, dry, and well-ventilated place, with containers tightly sealed.
The most prominent application of 4-Nitrocumene is its use as a pesticide intermediate, specifically in the production of the herbicide Isoproturon. Isoproturon is crucial for agricultural practices, aiding in the control of weeds that compete with crops for resources. The synthesis pathway from 4-Nitrocumene to Isoproturon is a well-established process in the agrochemical industry.
Beyond its primary role, the chemical structure of 4-Nitrocumene suggests potential applications in broader organic synthesis. As a nitroaromatic compound with an isopropyl substituent, it can serve as a versatile building block for the creation of more complex molecules. Companies specializing in fine chemical production might utilize 4-Nitrocumene in research and development for novel compounds.
For manufacturers, ensuring the purity of 4-Nitrocumene, typically assayed at ≥99.0%, is critical. This high level of purity directly impacts the yield and quality of the downstream products, such as Isoproturon. Sourcing this intermediate from reliable chemical intermediate suppliers is a strategic decision for businesses in the agrochemical and fine chemical sectors.
In summary, 4-Nitrocumene is a compound of considerable industrial importance. Its well-defined chemical properties, coupled with its essential role in herbicide synthesis, make it a sought-after intermediate. Understanding its characteristics and proper handling is key for safe and effective utilization in chemical manufacturing processes.
Perspectives & Insights
Silicon Analyst 88
“As a nitroaromatic compound with an isopropyl substituent, it can serve as a versatile building block for the creation of more complex molecules.”
Quantum Seeker Pro
“Companies specializing in fine chemical production might utilize 4-Nitrocumene in research and development for novel compounds.”
Bio Reader 7
“For manufacturers, ensuring the purity of 4-Nitrocumene, typically assayed at ≥99.”