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'Flamenco Dancing' Molecule Could Lead to Better-Protecting Sunscreen

Recent research opens up the possibility of developing a naturally-derived and eco-friendly sunscreen that protects against the full range of harmful wavelengths of light from the sun

by University of Warwick
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Flamenco Dancing MoleculeIllustrative image for the University of Warwick research on 'Flamenco dancing' molecule could lead to better-protecting sunscreen created by Dr. Michael Horbury.Credit: Dr. Michael HorburyA molecule that protects plants from overexposure to harmful sunlight thanks to its flamenco-style twist could form the basis for a new longer-lasting sunscreen, chemists at the University of Warwick have found, in collaboration with colleagues in France and Spain. Research on the green molecule by the scientists has revealed that it absorbs ultraviolet light and then disperses it in a 'flamenco-style' dance, making it ideal for use as a UV filter in sunscreens.

The team of scientists report today, October 18,  2019, in the journal Nature Communications that, as well as being plant-inspired, this molecule is also among a small number of suitable substances that are effective in absorbing light in the ultraviolet A (UVA) region of wavelengths. It opens up the possibility of developing a naturally-derived and eco-friendly sunscreen that protects against the full range of harmful wavelengths of light from the sun.

The UV filters in a sunscreen are the ingredients that predominantly provide the protection from the sun's rays. In addition to UV filters, sunscreens will typically also include: 

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  • Emollients, used for moisturizing and lubricating the skin
  • Thickening agents
  • Emulsifiers to bind all the ingredients
  • Water
  • Other components that improve aesthetics, water resistance, etc. 

The researchers tested a molecule called diethyl sinapate, a close mimic to a molecule that is commonly found in the leaves of plants, which is responsible for protecting them from overexposure to UV light while they absorb visible light for photosynthesis.

Related Article: Lignin from Plants Boosts the Effectiveness of Sunscreen

They first exposed the molecule to a number of different solvents to determine whether that had any impact on its (principally) light absorbing behavior. They then deposited a sample of the molecule on an industry standard human skin mimic (VITRO-CORNEUM®) where it was irradiated with different wavelengths of UV light. They used the state-of-the-art laser facilities within the Warwick Centre for Ultrafast Spectroscopy to take images of the molecule at extremely high speeds, to observe what happens to the light's energy when it's absorbed in the molecule in the very early stages (millionths of millionths of a second). Other techniques were also used to establish longer term (many hours) properties of diethyl sinapate, such as endocrine disruption activity and antioxidant potential.

Professor Vasilios Stavros from the University of Warwick Department of Chemistry, who was part of the research team, explains: "A really good sunscreen absorbs light and converts it to harmless heat. A bad sunscreen is one that absorbs light and then, for example, breaks down, potentially inducing other chemistry that you don't want. Diethyl sinapate generates lots of heat, and that's really crucial."

When irradiated, the molecule absorbs light and goes into an excited state but that energy then has to be disposed of somehow. The team of researchers observed that it does a kind of molecular 'dance' a mere 10 picoseconds (ten millionths of a millionth of a second) long: a twist in a similar fashion to the filigranas and floreos hand movements of flamenco dancers. That causes it to come back to its original ground state and convert that energy into vibrational energy, or heat.

It is this 'flamenco dance' that gives the molecule its long-lasting qualities. When the scientists bombarded the molecule with UVA light they found that it degraded only three percent over two hours, compared to the industry requirement of 30 percent.

Dr Michael Horbury, who was a postgraduate research fellow at the University Warwick when he undertook this research (and now at the University of Leeds) adds: "We have shown that by studying the molecular dance on such a short time-scale, the information that you gain can have tremendous repercussions on how you design future sunscreens.

Emily Holt, a PhD student in the Department of Chemistry at the University of Warwick who was part of the research team, said: "The next step would be to test it on human skin, then to mix it with other ingredients that you find in a sunscreen to see how those affect its characteristics."

Professor Florent Allais and Dr. Louis Mouterde, URD Agro-Biotechnologies Industrielles at AgroParisTech (Pomacle, France) commented: "What we have developed together is a molecule based upon a UV photoprotective molecule found in the surface of leaves on a plant and refunctionalized it using greener synthetic procedures. Indeed, this molecule has excellent long-term properties while exhibiting low endocrine disruption and valuable antioxidant properties."

Professor Laurent Blasco, global technical manager (Skin Essentials) at Lubrizol and honorary professor at the University of Warwick commented: "In sunscreen formulations at the moment there is a lack of broad-spectrum protection from a single UV filter. Our collaboration has gone some way towards developing a next generation broad-spectrum UV filter inspired by nature. Our collaboration has also highlighted the importance of academia and industry working together towards a common goal."

Stavros added, "Amidst escalating concerns about their impact on human toxicity (e.g. endocrine disruption) and ecotoxicity (e.g. coral bleaching), developing new UV filters is essential. We have demonstrated that a highly attractive avenue is 'nature-inspired' UV filters, which provide a front-line defence against skin cancer and premature skin aging."