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The Synthetic Routes of 4,6,8-TRIMETHYLQUINOLINE

 Last Update: 2023-05-08
 Source: Internet
 Author: User

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The synthesis of 4,6,8-trimethylquinoline, commonly abbreviated as TMQ, has long been a topic of interest in the chemical industry.
TMQ is a nitrogen-containing heterocyclic compound that has a wide range of applications in various fields such as pharmaceuticals, agrochemicals, and dyes.
This compound is synthesized through different synthetic routes, each of which has its advantages and disadvantages.
In this article, we will discuss some of the most commonly used synthetic routes for the preparation of TMQ.

The first synthetic route of TMQ involves the reaction of 3-amino-2-methyl propanamide with formaldehyde in the presence of a solvent such as ethanol.
This reaction results in the formation of N-methyl morpholine, which is then further reacted with an aldehyde such as acetaldehyde to form TMQ.
The second synthetic route involves the reaction of 4,6-diamino-2-oxo-1,3-hexanedicarboxylic acid with sodium hydroxide in the presence of water.
This reaction results in the formation of TMQ, which can then be further transformed into other compounds through various chemical reactions.
Another synthetic route involves the reaction of 2,4,6-triaminopyrimidine with chloroacetic acid in the presence of a solvent such as dichloromethane.
This reaction results in the formation of TMQ, which can then be converted into other compounds through further chemical reactions.
Yet another synthetic route involves the reaction of 2,4-diamino-6-methyl pyridine with benzaldehyde in the presence of a solvent such as benzene.
This reaction results in the formation of TMQ, which can be further transformed into other compounds through various chemical reactions.

In conclusion, the synthesis of 4,6,8-trimethylquinoline through these various synthetic routes is an important process in the chemical industry.
The choice of synthetic route depends on various factors such as the availability of reactants, the cost of the reaction, and the desired product yield.
The use of TMQ in various applications highlights its versatility and importance in the chemical industry.

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