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SORS doesn’t waste a drop

24 September 2020 | News
by Ian Michael

Iconic bottles of whisky have been known to sell for prices over £1 million. But how can you be confident that the contents of the bottle are the genuine product? Counterfeit drinks cost the UK economy more than £200 million in lost revenue each year, according to a 2018 study published by the European Union’s Intellectual Property Office. New research led by scientists from the School of Physics and Astronomy, published in Analytical Methods (doi.org/d8w6), has led to the development of a type of spatially offset Raman spectroscopy (SORS) which can see through the bottle to analyse the contents. The challenge in doing so was to record a signal from the contents without recording signals from the glass.

Researchers at St Andrews demonstrated a decade ago that Raman spectroscopy could be used to identify counterfeit whisky. However, their previous method was hampered by the fact that the alcohol is not the only material to scatter light: the glass of the bottle can create an even bigger signal which dwarfs the signal produced by the contents. Therefore, previous setups required the removal of a small quantity of the liquid for testing. The group of postdoctoral researchers, Holly Fleming, Mingzhou Chen and Graham Bruce, led by Professor Kishan Dholakia, developed a new method to accurately measure the contents of a bottle. Rather than illuminating the bottle with a standard laser beam, the team used a glass element to shape the light to produce a ring of laser light on the bottle surface and a tightly focussed spot within the liquid contents. As the signal from the bottle and the signal from the liquid are at different positions, a detector can be placed to record only the signal from the liquid, meaning the bottle contents can be assessed without ever opening the bottle.

Professor Kishan Dholakia said: “Personally, I hate it when I have to spare a drop of whisky for validation checks. I’d much rather drink the whole bottle. Laser spectroscopy is a powerful tool for characterising the chemical make-up of many materials, but to use it to characterise alcohol in its original container in this simple way is really exciting.”

The approach does not require complex optical setups and therefore promises to be easily manufactured for widespread use. If whisky isn’t to your taste, the researchers have also demonstrated the method using vodka and gin. Meaning that, in future, you will be able to authenticate your expensive alcohol, without wasting a drop!

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