'Whiskey webs' are the new 'coffee ring effect'

(Nanowerk News) Spilled coffee forms a ring as the liquid evaporates, depositing solids along the edge of the puddle. This "coffee ring effect" has fascinated scientists for decades, but now a team says they have uncovered the mechanism behind an even more striking, web-like pattern that forms when drops of American whiskey dry up.
The results, reported in ACS Nano ("Multiscale Self-Assembly of Distinctive Weblike Structures from Evaporated Drops of Dilute American Whiskeys"), suggest that these distinctive 'whiskey webs' could someday be used to identify counterfeit spirits.
A drop of American whiskey evaporated to form a distinctive web-like pattern of solutes
A drop of American whiskey evaporated to form a distinctive web-like pattern of solutes. (© ACS)
When a drop of liquid evaporates, solids are left behind in a pattern that depends on what the liquid is, what solids are in it and the environmental conditions. Stuart Williams and colleagues previously found that drops of diluted American whiskeys -- but not their Scotch or Canadian counterparts -- formed webbed patterns when dried on a glass surface, and there were hints that the pattern was distinctive for different brands of whiskey.
In the current study, the researchers wanted to see how the whiskey webs form in more detail, and whether they could serve as fingerprints of the spirits.
The team used time-lapse microscopy to examine droplets of diluted American whiskey as the liquid evaporated. Non-volatile organic compounds, such as phenols, aromatics and esters, clustered together and were driven to the surface of the droplet, where they formed monolayers. As the surface area of the droplet decreased, the monolayers collapsed, creating strands of the web.
The researchers showed that different American whiskeys showed unique web patterns that could be correctly matched to unknown samples more than 90% of the time. The distinctive webs arise from the unique combination of solutes in each whiskey, the researchers say.
Source: American Chemical Society
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