Typically, Furandicarboxylic acid is an organic chemical compound that is made up of two carboxylic acid groups. The two carboxylic acids are attached to the central furan ring. It is considered a renewable resource since it is possible to produce it from certain carbohydrates. On the other hand, this compound has been identified as one of the twelve priority chemicals for future chemistry industry establishment. Due to the acid having the capacity to substitute for the terephthalic acid in the production of the polyesters along with other recent polymers that contain an aromatic moiety, it has been deliberated as a crucial renewable building block.

The synthesis of this organic compound can be divided into four major groups. One of them is dehydration of the hexose derivatives, catalytic conversions of the different furan derivatives, the biological conversion of HMF together with the oxidation of 2,5-disubstituted furans. Below is a discussion concerning the primary uses as well as the applications of the

Furandicarboxylic acid, polymerization is the most critical group of this kind of acid conversions. Typically, the prospective applications of the furan-based building blocks for the applications of the polymer have been significantly reviewed. Several firms have been developed to produce this acid together with the derivation of other polyesters at a cost-effective method.
On the other hand, such a compound applies to pharmacology. According to research, it has been demonstrated that the diethyl ester available in the compound has an intense anesthetic action that is similar to that of the cocaine. As a result, it can be utilized to prevent the bacillus species growth.

Based on the screening studies of the compound-derived anilides, they are much helpful as they possess antibacterial activity.
More to that, this type of acid can be utilized in medicine to help in the removal of kidney stones. A highly diluted solution of the acid is used for the preparation of artificial veins for transplantation purposes. Remember, it is a compound that is very stable. It is advantageous in many industries as it can act as an ingredient of fire foams. The use of the foams is to extinguish the fire in a short period.

The organic compound versatility has been identified in various derivatives that are available through simple chemical transformations. The selective reduction can lead to partially hydrogenated products. The materials have the capability of serving as a component of alcohol in the new polyester production.