A recent study by Lei Jiang and his colleagues at the Chinese Academy of Sciences has shed light on the differences in taste between drinking whisky neat or on the rocks. The researchers found that the shapes formed by water and ethanol molecules in whisky are responsible for these differences in taste, with clustering of these molecules at varying temperatures affecting flavor profiles of alcoholic beverages.
Jiang and his team conducted research to understand how factors like temperature and alcohol by volume (ABV) affect the molecular composition of beverages like beer, wine, and baijiu. They used nuclear magnetic resonance imaging and computer simulations to study clusters of water and ethanol molecules at different levels of ABV and temperatures. Additionally, they collaborated with Chinese baijiu brand Wuliangye to conduct taste tests that showed that colder and lower ABV liquids have a more refreshing taste due to their compact structure, while warmer drinks with higher ABV were perceived as more pungent and tasted more alcoholic due to altered cluster formations.
While the study suggests a correlation between molecular clusters and taste perception, Gavin Sacks from Cornell University cautions that the relationship is complex. Sacks explained that receptors in the mouth are activated by both heat and alcohol’s burning sensation, making it challenging to directly link molecular clusters to taste preferences. Nevertheless, this research provides valuable insights into how factors like temperature and ABV can impact not only our perception but also our enjoyment of various types of alcoholic beverages.