The Reimer-Tiemann reaction equation was first discovered by Karl Reimer and Ferdinand Tiemann. This reaction is a type of substitution reaction. It is also quite effective when hydroxy-aromatic compounds are added to the solutions. The mechanism of this particular reaction begins with the formation of chloroform and a strong base. The negative charge is now delocalized in the Benzene ring. The Reimer-Tiemann reaction equation also occurs under the basic conditions. The metric attention is also regarded as a quantitative measure of this solution.Â
The Concepts of the Reimer-Tiemann Reaction Equation
The Reimer-Tiemann reaction equation is also considered as a substitutional solution. The Reimer-Tiemann reaction equation also helps to deprotonate by the strong base of the solutions. This reaction is also very effective for the formation of other hydroxy- aromatic compounds including naphthols. The reaction is also basically used for the formation of phenol. The chemical reactions of this particular equation also proceed at different speeds. The interpretation and the measurement of this reaction also form a branch of chemistry known as chemical kinetics. However, chemical kinetics also takes part in the formation of phenol.Â
The reaction also states the fact that when phenol is treated with Chloroform (CHCl3) in the presence of sodium hydroxide, the reaction is known as the Reimer-Tiemann reaction. However, phenol also becomes reactive with the chloroform within the solution.
Application of Reimer Tiemann Reaction
The reaction is also slightly altered with the phenolic acids. This particular reaction equation is widely used in the modern era. The key products that are also produced from this reaction equation include phenol and chloroform in an alkaline medium. The application of the Reimer Tiemann reaction is also observed in the formation of the alkaline medium. Moreover, in other words, they also help to produce a strong base from this particular chemical reaction. The application of the Reimer Tiemann reaction also works as a medium for the formation of the salicylaldehyde in the alkaline medium. Therefore, this reaction equation also plays a vital role in chemistry. On the other hand, phenol is also used in different purposes of life. It also helps to serve different purposes in the factories and household tasks. The equation of this reaction :
Phenol + CCl3 + 4 KOH → Salicylic acid
Reimer Tiemann Reaction of Phenol
The Reimer Tiemann reaction of phenol also provides a lot of benefits to the chemist and the learners. It also helps to produce key products that are useful for chemical purposes. The key products that are produced from this chemical reaction include phenols and chloroforms. All these things are also beneficial for domestic purposes and for educational purposes in the laboratories. This reaction equation is slightly altered to yield phenolic acids such as salicylic acid. There are always two types of products that originate from this particular equation. The major products include phenols and the minor product is salicylic acids. Moreover, in other words, the salicylic acids also go through some different processes at the beginning of the solutions. Phenols also become reactive in this particular chemical reaction. It also helps the chemists as well as the learners to develop different concepts and ideas for this chemical reaction. Therefore, it plays a vital role supplying the phenolic acids and salicylic acids for educational purposes.
Conclusion
From the above discussions, it can also be concluded that the Reimer-Tiemann reaction equation plays a vital role in producing the phenols. This reaction equation also helps to create an alkaline medium such as chloroform. There are some important factors that are useful during the chemical reaction of this equation. The key factors of this chemical reaction include pressure as well as temperature. They also help to produce salicylic acids within a short period of time. The application of the Reimer Tiemann’s reaction is also observed in the different parts of their lives. This particular reaction equation also helps the learners and the chemists to develop different concepts and theories related to this particular reaction equation.