add share buttonsSoftshare button powered by web designing, website development company in India

What You Should Know About PFOA And PFOS

Perfluorooctanoic acid (PFOA), also known as C8, and perfluorooctane sulfonate (PFO) has attracted more attention in recent years due to the health dangers linked with these substances. This chemical is a member of the wider class of perfluoroalkyl compounds, which have lately been deemed safe. However, the current study has proven that they can be hazardous to one's health and the environment.

PFOA and PFO have become increasingly popular chemicals among industrial makers in recent decades. This is a troubling illustration of how a lack of experimentation can lead to beneficial usage at the expense of persons and the environment. As a result, these substances are now common in the environment and the creatures that live in it, including humans. 

Because PFO and PFOA disintegrate slowly in the environment, the risk of pollution persists for an extended period. To acquire more information about PFOA and PFOS you may visit

Perfluorooctanoic acid (PFOA) and perfluooctane sulfonate (PFOS) induce different modes of action in reproduction to Japanese medaka (Oryzias latipes) - ScienceDirect

Image Source Google

They are no longer categorized as pollutants due to their unusual nature, which makes them difficult to detect. Most contaminants that harm living beings build up in adipose tissue, but these substances bind to proteins. According to the EPA, PFO and PFOA accumulate easily in living organisms and have an estimated half-life of 4 years in humans.

To throw additional light on this subject, it's critical to first understand what these relationships are and where they might reside. The associated hazards will then be developed, and we will investigate whether and how they can be avoided.

What exactly are PFOA and PFOS?

PFOS is an abbreviation for perfluorooctane sulfonate, while PFOA is an abbreviation for perfluorooctanoic acid; both are perfluoroalkyl compounds (PFAS). These synthetic materials have several advantages for industrial applications, including water and oil resistance. Because of their ability to restrict water and fat, they have been used in a variety of applications.