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To download a pdf of this article, visit cenm.ag/tinyears.
References used to create this graphic:
Commission on Isotopic Abundances and Atomic Weights. “Tin.” International Union of Pure and Applied Chemistry. Accessed Dec. 12, 2024.
Fiorillo, Luca, Gabriele Cervino, Alan Scott Herford, Luigi Laino, and Marco Cicciù. “Stannous Fluoride Effects on Enamel: A Systematic Review.” Biomimetics (2020). DOI: 10.3390/biomimetics5030041.
Öhrström, Lars. “Bonaparte’s Bursting Buttons: A Thin Story.” In Curious Tales from Chemistry: The Last Alchemist in Paris, and Other Episodes. Oxford University Press, November 2013. DOI: 10.1093/oso/9780199661091.003.0020.
A collaboration between C&EN and Andy Brunning, author of the popular graphics blog Compound Interest
To see more of Brunning’s work, go to compoundchem.com. To see all of C&EN’s Periodic Graphics, visit cenm.ag/periodicgraphics.
This graphic was updated on Jan. 9, 2025, to correct errors in the origin of the theory about Napoleon's tin buttons, the structure of bisphenol S, and modern can materials. The buttons’ transformation into crumbly α-tin is a theory from scientists, not a claim from historians. The sulfur atom in bisphenol S is bonded to two carbonyl groups, not two methyl groups. Modern cans are more commonly made of steel than of stainless steel.
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