4-Nitrocumene: Properties, Synthesis, and Use in Herbicide Production
The world of industrial chemistry is filled with compounds that, while not end products themselves, are critical enablers of manufacturing. 4-Nitrocumene is a prime example of such a compound. This article explores the properties, synthesis, and essential applications of 4-Nitrocumene, particularly its vital role in the production of herbicides.
4-Nitrocumene, also known by the synonym p-Nitrocumene, is an organic compound with the chemical formula C9H11NO2 and CAS number 1817-47-6. It is characterized as a yellow liquid, with a density of around 1.1 g/cm³ and a boiling point of 236.4 °C. Its flash point is approximately 99.9 °C, making it a combustible liquid that requires careful handling.
From a chemical perspective, 4-Nitrocumene is valued for its stability under recommended storage conditions – typically in cool, dry, well-ventilated areas, with containers tightly sealed. It is noted to be incompatible with strong bases and oxidizing agents, underscoring the need for appropriate safety measures during its use and storage. The purity of 4-Nitrocumene is a critical specification for industrial applications, with requirements often set at ≥99.0% assay.
The primary industrial application for 4-Nitrocumene is its function as a key intermediate in the synthesis of herbicides. Most notably, it is used in the production of Isoproturon, a selective herbicide widely employed in agriculture to control weeds in crops such as wheat and barley. The efficient 4-Nitrocumene synthesis is therefore directly linked to the availability of this important agrochemical.
For manufacturers, understanding the various routes for 4-Nitrocumene synthesis is important for optimizing production costs and ensuring a stable supply chain. Chemical intermediate suppliers play a crucial role in providing this compound to agrochemical companies, ensuring that the required purity and quality standards are met consistently.
The use of 4-Nitrocumene in herbicide production exemplifies how specific chemical intermediates form the backbone of entire industries. Its unique molecular structure allows for the targeted synthesis of compounds that are essential for modern farming practices, contributing to increased crop yields and more efficient land use.
In conclusion, 4-Nitrocumene is an industrially significant compound, distinguished by its chemical properties and its indispensable role as a precursor in herbicide manufacturing. Its reliable supply and consistent quality are vital for the agrochemical sector's ability to provide farmers with the tools they need for effective weed management.
4-Nitrocumene, also known by the synonym p-Nitrocumene, is an organic compound with the chemical formula C9H11NO2 and CAS number 1817-47-6. It is characterized as a yellow liquid, with a density of around 1.1 g/cm³ and a boiling point of 236.4 °C. Its flash point is approximately 99.9 °C, making it a combustible liquid that requires careful handling.
From a chemical perspective, 4-Nitrocumene is valued for its stability under recommended storage conditions – typically in cool, dry, well-ventilated areas, with containers tightly sealed. It is noted to be incompatible with strong bases and oxidizing agents, underscoring the need for appropriate safety measures during its use and storage. The purity of 4-Nitrocumene is a critical specification for industrial applications, with requirements often set at ≥99.0% assay.
The primary industrial application for 4-Nitrocumene is its function as a key intermediate in the synthesis of herbicides. Most notably, it is used in the production of Isoproturon, a selective herbicide widely employed in agriculture to control weeds in crops such as wheat and barley. The efficient 4-Nitrocumene synthesis is therefore directly linked to the availability of this important agrochemical.
For manufacturers, understanding the various routes for 4-Nitrocumene synthesis is important for optimizing production costs and ensuring a stable supply chain. Chemical intermediate suppliers play a crucial role in providing this compound to agrochemical companies, ensuring that the required purity and quality standards are met consistently.
The use of 4-Nitrocumene in herbicide production exemplifies how specific chemical intermediates form the backbone of entire industries. Its unique molecular structure allows for the targeted synthesis of compounds that are essential for modern farming practices, contributing to increased crop yields and more efficient land use.
In conclusion, 4-Nitrocumene is an industrially significant compound, distinguished by its chemical properties and its indispensable role as a precursor in herbicide manufacturing. Its reliable supply and consistent quality are vital for the agrochemical sector's ability to provide farmers with the tools they need for effective weed management.
Perspectives & Insights
Nano Explorer 01
“Its reliable supply and consistent quality are vital for the agrochemical sector's ability to provide farmers with the tools they need for effective weed management.”
Data Catalyst One
“The world of industrial chemistry is filled with compounds that, while not end products themselves, are critical enablers of manufacturing.”
Chem Thinker Labs
“This article explores the properties, synthesis, and essential applications of 4-Nitrocumene, particularly its vital role in the production of herbicides.”