Carbolic Acid

Carbolic acid, also known as phenol, is an organic compound with the formula C6H5OH. This acid is weakly acidic and is often used as an antiseptic and disinfectant.

Historically, Carbolic acid got its name from the Latin word "carbolicum acidum", which means "carbonic acid". This is because phenol was extracted from coal tar in 1834 by the German chemist Friedrich Wöller.

Carbolic acid is widely used in medicine and industry. In medicine, it is used as an antiseptic and disinfectant for wounds, burns and other superficial injuries. In industry, carbolic acid is used for the production of plastics, dyes, pharmaceuticals and agricultural preparations.

However, it should be noted that carbolic acid is poisonous and its improper use or consumption can lead to serious health consequences. Therefore, before using Carbolic acid, you should read the instructions and consult with a professional medical professional.

Carbolic acid is an important compound in science and industry, and its wide range of uses makes it an indispensable ingredient in many industries. However, precautions are required when using this acid to avoid negative health and environmental consequences.

Carbolic acid (also known as carbolic ester and phenol) is a chemical substance belonging to the group of aromatic hydrocarbons, that is, organic compounds containing a benzene ring. These compounds are widely used in various fields due to their pleasant odors, bright colors (various colors from red to light purple), thermal effect and other properties. As an active ingredient, carbolic acid is used for disinfection, leather tanning and wood processing, in pharmaceuticals (as an antacid, antiseptic and antidote) and other purposes. Currently, carbolic acids are produced synthetically, as well as their natural varieties - amine carbolic esters.

History of the molecule: Carbolic (phenol-formaldehyde) resins are a mixture of phenol and formaldehyde. They are obtained by heating anhydrous phenol in the presence of sulfuric acid at a temperature of 250 to 260°C; defecation and filtration of the resin makes the product less toxic. Carbolic resins undergo intensive modification to improve their quality. When modified resins are heated over sodium, a modification salt is obtained. Advanced sulfite, idironisocoproxy binders are an important