German scientists have revealed that an invisible aura around the human body really exists.
According to details, a paper published in the journal Science says that scientists have discovered that there is an invisible glow around the human body that can clean the air we breathe in through science.
The research shows for the first time that when ozone gas in the air reacts with the oils from our skin, an invisible haze of air-purifying molecules is created on human bodies.
These 'auras' are actually OH radicals which are short-lived molecules, and when they are formed by sunlight in the open air, they neutralize toxic molecules near humans, hence they are also called 'detergents of the atmosphere.
However, this 'aura' is technically an oxidation field, with research showing for the first time that OH radicals are also produced by the human body.
Experts have not yet determined whether this oxidation field or other force is good or bad, as the effect of this aura is still unknown.
A study by the Max Planck Institute in Germany suggests that these molecules may clean the air around us before we breathe. This oxidation field, or 'invisible halo', maybe clean the air before we breathe, but we don't know for sure, says Jonathan Williams, professor of chemistry and lead author of the study.
According to the researchers, another possibility is that the molecules we think are harmless may turn out to be more toxic, so more research is needed in this regard.
Professor Williams and his team measured the levels of OH radicals in the air by placing four people in a sterile room with oxygen masks, then added ozone to the room and saw a dramatic increase in the levels of the chemicals, and They then created images from the data showing the oxidation fields.
Professor Williams said that this pattern of chemical formation (ie the aura) is somewhat similar to the glow of green light around a barrel of nuclear waste.
A deeper analysis revealed that squalene, a chemical that keeps the skin soft, reacts chemically when ozone hits it and creates an OH oxidation field through a series of complex chemical reactions.
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