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The synthetic routes of 2,5-dimethyl-thiophene-3-carbaldehyde are numerous and varied, and the choice of route depends on several factors such as the availability of starting materials, the scale of production, and the desired product purity.
The following are some of the commonly used synthetic routes for the preparation of 2,5-dimethyl-thiophene-3-carbaldehyde.
- Oxidative cleavage of dimethyl sulfide:
Dimethyl sulfide is treated with hydrogen peroxide in the presence of a catalyst such as sodium hydroxide to yield 2,5-dimethyl-thiophene-3-carbaldehyde.
This route is relatively simple and efficient, but requires the preparation of dimethyl sulfide from dimethyl ether and sulfur dioxide. - Reduction of 2,5-dimethylthiophene:
2,5-Dimethylthiophene can be reduced to 2,5-dimethyl-thiophene-3-carbaldehyde using various reducing agents such as lithium aluminum hydride, hydrogen in the presence of a catalyst, or diisobutylaluminum hydride. - Reduction of 2,5-dimethyl-thiophene-3-sulfonic acid:
2,5-Dimethyl-thiophene-3-sulfonic acid can be reduced to 2,5-dimethyl-thiophene-3-carbaldehyde using reducing agents such as lithium aluminum hydride, hydrogen in the presence of a catalyst, or diisobutylaluminum hydride. - Dealkylation of N-(2,5-dimethylthiophen-3-yl)acetamide:
N-(2,5-dimethylthiophen-3-yl)acetamide can be dealkylated using various reagents such as sodium hydroxide, potassium hydroxide, or hydrazine hydrate to yield 2,5-dimethyl-thiophene-3-carbaldehyde. - Dehydrogenation of N-(2,5-dimethylthiophen-3-yl)urea:
N-(2,5-dimethylthiophen-3-yl)urea can be dehydrogenated using various methods such as catalytic hydrogenation or thermal dehydrogenation to yield 2,5-dimethyl-thiophene-3-carbaldehyde. - From thiophene-3-carbaldehyde:
2,5-Dimethyl-thiophene-3-carbaldehyde can be converted to 2,5-dimethyl-thiophene-3-carboxaldehyde using various reagents such as acetic acid or malonic acid, and then to 2,5-dimethyl-thiophene-3-amine using reagents such as ammonia or a primary amine.
The choice of synthetic route depends on several factors such as the availability of starting materials, the desired product purity, and the scale of production.
The synthetic routes described above are just a few examples, and other methods may also be used depending on the specific requirements of the synthesis.
The synthesis of 2,5-dimethyl-thiophene-3-carbaldehyde is an important synthetic target in the chemical industry, and the development of new and efficient synthetic methods is an active area of research.
