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- 06/09/2017

Infographic of the month: The Chemistry of Sunscreen

TKS News

Being June and ahead of the holiday time it seemed a good time  to examine the chemicals in sunscreen. It’s a product that many of us may take for granted, but you’ve got chemistry to thank for it preventing your skin turning lobster red in the summer sun. There are a number of chemical molecules used in currently available sunscreens, with the exact formulation actually depending on where in the world you live. Additionally, the chemistry of these molecules can help explain why sunscreen has to be reapplied periodically.


To understand the protection that sunscreen affords, we first have to understand what we’re trying to protect ourselves from. Sunscreen is designed to protect us from UV radiation from the sun; this has a shorter wavelength than visible light, and a lot of the energy emitted by the sun is in the form of UV, which can be divided into three categories. One of these, UVC (with a wavelength of ~290-100nm) isn’t a problem, as it’s absorbed by ozone in the atmosphere before it can reach the Earth’s surface. There are two other categories, however, UVA & UVB, which can cause damage to skin.

UVB (wavelength ~290-320nm) is responsible for around 5% of the UV radiation reaching Earth, with the majority of it also being absorbed by the atmosphere. It causes your skin to produce more melanin, which is what causes the tanning effect of sitting in the sun. However, it can also cause sunburn, and direct DNA damage, which can increase the risk of developing skin cancer. Sunscreen has been available as a product since around 1928, and most early sunscreens were formulated to screen the skin against UVB rays.

UVA (wavelength ~320-400nm) is responsible for the largest proportion of the UV radiation from the sun that reaches the Earth’s surface – approximately 95%. UVA can penetrate much deeper into the skin than UVB, down into the connective tissue. This causes wrinkling and premature ageing of the skin. UVA can also generate reactive species in the skin, and thus indirectly causing DNA damage, and contribute to an increased skin cancer risk. It was for a time considered relatively harmless in comparison to UVB, but now the damage it can cause is beginning to be understood, sunscreens have included different chemicals to also shield against this portion of the UV spectrum.

So, how does sunscreen work chemically? Both inorganic chemicals and organic (carbon based) chemicals can be used to afford protection. The two inorganic compounds used are titanium dioxide and zinc oxide. These compounds are often described as merely providing a physical, reflective barrier to UV light, but in fact they can absorb the UV radiation, and dissipate it harmlessly. The first sunscreens containing only these chemicals would have left a visible white layer on the skin.

In present day sunscreens, a combination of inorganic chemicals with organic chemicals are used.

Read more here on Compound Interest web site