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4-BroMo-2-MethylpyriMidine is a synthetic compound that is widely used in the chemical industry for various applications.
Its synthetic routes can be broadly classified into two categories: the traditional route and the modern route.
The traditional route involves several steps, including the preparation of the starting materials, the reaction conditions, and the purification of the final product.
The traditional route for the synthesis of 4-BroMo-2-MethylpyriMidine involves the following steps:
- Preparation of the starting materials: The synthesis of 4-BroMo-2-MethylpyriMidine typically begins with the preparation of the starting materials, which include 2-methylpyridine, 4-bromomethylpyridine, and other reagents.
- Reaction conditions: The reaction conditions used in the traditional route for the synthesis of 4-BroMo-2-MethylpyriMidine are often harsh and can involve the use of toxic reagents and solvents.
- Purification of the final product: After the reaction is complete, the final product is typically purified by using techniques such as crystallization, distillation, and chromatography.
The traditional route for the synthesis of 4-BroMo-2-MethylpyriMidine is often time-consuming and expensive, and can involve the use of hazardous chemicals.
The modern route for the synthesis of 4-BroMo-2-MethylpyriMidine, on the other hand, involves the use of modern molecular synthesis techniques, which can result in a more efficient, cost-effective, and environmentally friendly process.
The modern route for the synthesis of 4-BroMo-2-MethylpyriMidine involves the following steps:
- Design of the synthesis: The synthesis of 4-BroMo-2-MethylpyriMidine is typically designed using computer-assisted molecular modeling techniques, which allow for the prediction of the outcome of the reaction and the optimization of the reaction conditions.
- Preparation of the starting materials: The starting materials for the modern route for the synthesis of 4-BroMo-2-MethylpyriMidine are typically prepared using molecular synthesis techniques, which can result in a higher yield and purity of the starting materials.
- Reaction conditions: The reaction conditions used in the modern route for the synthesis of 4-BroMo-2-MethylpyriMidine are typically milder and can involve the use of less toxic reagents and solvents.
- Purification of the final product: After the reaction is complete, the final product is typically purified by using techniques such as high-performance liquid chromatography (HPLC), which can result in a higher yield and purity of the final product.
Overall, the modern route for the synthesis of 4-BroMo-2-MethylpyriMidine is more efficient, cost-effective, and environmentally friendly than the traditional route.
The use of modern molecular synthesis techniques has revolutionized the chemical industry in recent years, and has resulted in the development of new and innovative synthetic routes for the production of fine chemicals such as 4-BroMo-2-MethylpyriMidine.
In conclusion, the synthetic routes of 4-BroMo-2-MethylpyriMidine differ significantly between the traditional and modern routes.
While the traditional route is time-consuming and can involve the use of hazardous chemicals, the modern route is more efficient, cost-effective, and environmentally friendly.
The use of modern molecular synthesis techniques has revolutionized the chemical industry in recent years and has resulted in the development of new and innovative synthetic routes for the production of fine chemicals such as 4-BroMo-2-Meth
