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4-[2-(3,4-Dihydro-7-methoxy-4,4-dimethyl-1,3-dioxo-2(1H)-isoquinolinyl)ethyl]benzenesulfonamide, also known as Compound X, is an important compound in the field of chemical synthesis and has been widely used in various applications.
The synthetic routes for Compound X have been the subject of extensive research and have been discussed in many scientific papers.
In this article, we will discuss the different synthetic routes for Compound X and their importance in the chemical industry.
One of the most popular synthetic routes for Compound X involves a 10-step sequence that has been established through experimentation and optimization.
This route involves several chemical reactions, including halogenation, nitration, sulfonation, and condensation reactions.
The intermediate compounds are synthesized through these reactions, and then the final product is synthesized through a series of additional reactions.
The synthetic route is complex, and it involves the use of several different reagents and conditions.
The route has been well-documented in the scientific literature and has been used by many researchers to synthesize Compound X.
Another synthetic route for Compound X involves the use of a modified 8-step sequence.
This route is similar to the standard 10-step route, but it involves the use of different reagents and conditions in some of the reactions.
The modified route has been shown to have similar yields and purity compared to the standard route, and it has been used by several researchers as an alternative method for synthesizing Compound X.
In addition to the above-mentioned routes, there are also several other synthetic routes for Compound X that have been reported in the literature.
One such route involves the use of microwave-assisted synthesis, which has been shown to reduce the synthesis time and improve the yield.
Another route involves the use of a one-pot synthesis strategy, which combines multiple steps into a single reaction vessel and reduces the need for separate reaction vessels and purification steps.
These alternative routes offer advantages in terms of synthesis time, yield, and purity, and they are actively being pursued by researchers in the field.
The importance of synthetic routes for Compound X in the chemical industry cannot be overstated.
The ability to synthesize this compound in a reliable and efficient manner is crucial for many different applications.
Compound X has been used in the development of new drugs, agrochemicals, and other pharmaceutical products.
It has also been used in the development of new materials for use in the electronics industry.
The ability to synthesize Compound X in a cost-effective and efficient manner is crucial for these applications, and the development of new and improved synthetic routes is an active area of research in the chemical industry.
In conclusion, the synthetic routes for Compound X are complex and involve several different chemical reactions.
There are several different routes that have been established, and there is still ongoing research to develop new and improved synthetic routes.
The ability to synthesize this compound in a reliable and efficient manner is crucial for many different applications in the chemical industry, and the development of new and improved synthetic routes is an important area of research.
![9-[3-Chloro-5-(phenanthren-9-yl)phenyl]phenanthrene / 1369431-34-4](https://file.echemi.com/fileManage/upload/goodpicture/20241028/9-3-chloro-5-phenanthren-9-ylphenylphenanthrene-1369431-34-4_b20241028151130118.jpg)
