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1-ISOQUINOLINEMETHANOL, also known as IQM, is an organic compound that is widely used in the chemical industry.
It is a versatile chemical that can be used in a variety of applications, including the production of pharmaceuticals, dyes, and other chemical products.
One of the most important uses of 1-ISOQUINOLINEMETHANOL is in the production of Δ9-THC, which is the primary active ingredient in marijuana.
Δ9-THC is a psychoactive compound that is known for its ability to produce feelings of euphoria and relaxation in users.
There are several synthetic routes that can be used to synthesize 1-ISOQUINOLINEMETHANOL, each of which has its own advantages and disadvantages.
The following are some of the most common synthetic routes for 1-ISOQUINOLINEMETHANOL:
- The Amide Route:
The amide route is one of the most common synthetic routes for 1-ISOQUINOLINEMETHANOL.
In this route, the starting material is benzaldehyde, which is reacted with hydrazine to produce 1-aminomethyl-benzene.
This compound is then reacted with formaldehyde to produce 1-methyl-2-pyrrolidone.
The final step in this route involves treating 1-methyl-2-pyrrolidone with lithium hydroxide to produce 1-ISOQUINOLINEMETHANOL. - The Halogenation Route:
In the halogenation route, the starting material is phenol, which is treated with hydrogen chloride to produce chlorphenol.
This compound is then reacted with acetylene to produce 1-isoquinoline.
The final step in this route involves treating 1-isoquinoline with methanol to produce 1-ISOQUINOLINEMETHANOL. - The Hydroxylation Route:
The hydroxylation route involves treating benzene with ozone to produce hydroxybenzene.
This compound is then treated with sodium hydroxide to produce phenol.
The final step in this route involves treating phenol with hydrogen chloride to produce 1-isoquinoline.
The resulting compound is then treated with methanol to produce 1-ISOQUINOLINEMETHANOL. - The Naphthalene Route:
In the naphthalene route, the starting material is naphthalene, which is treated with chloroform to produce chloro naphthalene.
This compound is then treated with formaldehyde to produce 1-methyl-2-pyrrolidone.
The final step in this route involves treating 1-methyl-2-pyrrolidone with lithium hydroxide to produce 1-ISOQUINOLINEMETHANOL.
Overall, the synthetic routes for 1-ISOQUINOLINEMETHANOL vary depending on the starting material and the desired product.
Some routes may be more cost-effective or efficient than others, depending on the scale of production and the purity of the desired compound.
Regardless of the synthetic route used, 1-ISOQUINOLINEMETHANOL is an important compound in the chemical industry and is widely used in a variety of applications.
