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4-BROMO-N-[2-(TBDMSO)ETHYL]BENZENESULFONAMIDE is a compound commonly used in the chemical industry as a versatile building block for the synthesis of a wide range of chemicals and materials.
The compound is synthesized through a series of chemical reactions that involve the use of various reagents, solvents, and catalysts.
The final product is a pale yellow solid that has a melting point of approximately 160-165°C and is soluble in various organic solvents.
The primary use of 4-BROMO-N-[2-(TBDMSO)ETHYL]BENZENESULFONAMIDE is as a reactant in the synthesis of other chemicals.
It can be converted into a wide range of chemicals and materials through a variety of chemical reactions.
For example, it can be used in the synthesis of polymers, plastics, dyes, pharmaceuticals, and agrochemicals.
It can also be used as a intermediate in the production of various chemicals such as detergents, surfactants, and other specialty chemicals.
One of the key advantages of 4-BROMO-N-[2-(TBDMSO)ETHYL]BENZENESULFONAMIDE is its ability to be easily converted into a wide range of chemicals and materials.
This makes it a versatile building block that can be used in the synthesis of a wide range of chemicals and materials.
Additionally, it can be easily synthesized through a series of chemical reactions, which makes it an efficient and cost-effective building block for the chemical industry.
The synthesis of 4-BROMO-N-[2-(TBDMSO)ETHYL]BENZENESULFONAMIDE typically involves a series of chemical reactions that involve the use of various reagents, solvents, and catalysts.
The specific conditions and reagents used in the synthesis process will depend on the desired end product and the specific synthesis route being used.
The first step in the synthesis of 4-BROMO-N-[2-(TBDMSO)ETHYL]BENZENESULFONAMIDE is typically the synthesis of N-[2-(TBDMSO)ETHYL]BENZENESULFONAMIDE, which is the precursor to 4-BROMO-N-[2-(TBDMSO)ETHYL]BENZENESULFONAMIDE.
This is typically accomplished through a reaction between N-BROMO-BENZENESULFONAMIDE and 2-(TBDMSO)ETHYL BENZENE AMINE in the presence of a Lewis acid catalyst, such as zinc chloride or aluminum chloride.
The next step is the bromination of N-[2-(TBDMSO)ETHYL]BENZENESULFONAMIDE to produce 4-BROMO-N-[2-(TBDMSO)ETHYL]BENZENESULFONAMIDE.
This is typically accomplished through a reaction with N-BROMO-BENZENE in the presence of a solvent, such as toluene, and a Lewis acid catalyst, such as zinc chloride or aluminum chloride.
After the synthesis of 4-BROMO-N-[2-(TBDMSO)ETHYL]BENZENESULFONAMIDE, the next step is typically the purification and isolation of the final product.
This can be accomplished through a variety of methods, such as crystallization, distillation, or chromatography.
The synthesis of 4-BROMO-N-[2-(TB
