Atomizer of history: How perfume research has shaped a century of scientific innovation

Editors' notes This article has been reviewed according to Science X's editorial process and policies. Editors have highlighted the following attributes while ensuring the content's credibility: fact-checked trusted source proofread by University of Chicago Credit: Unsplash/CC0 Public Domain Is the quest for the perfect top notes responsible for some of the world's most influential scientific discoveries?

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Editors’ notes

This article has been reviewed according to Science X’s
editorial process
and policies.
Editors have highlighted
the following attributes while ensuring the content’s credibility:

fact-checked

trusted source

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by University of Chicago

Credit: Unsplash/CC0 Public Domain

Is the quest for the perfect top notes responsible for some of the world’s most influential scientific discoveries? A new article in the journal Isis argues that fragrance research has stimulated scientific endeavor for over a century, but that its contributions have been overlooked due to perfume’s stigma as a frivolous, feminine luxury.

In “Musk and the Making of Macromolecules: Perfumes and Polymers in the History of Organic Chemistry,” author Galina Shyndriayeva demonstrates how tracing the history of production clarifies and enriches the history of chemical innovation and industrial development.

Leopold Ružička, a recipient of the 1939 Nobel Prize in chemistry, was granted this honor in part due to a discovery he made while working for a Geneva-based perfume supplier: the synthesis of muscone, or artificial musk. Musk, a vital ingredient in the production of perfume, was expensive and time-consuming to source in its natural form, as it involved the hunting of male deer in Russia and the Himalayas region, and the musk pouches of up to fifty bucks were required to generate a single kilogram.

Ružička reproduced the substance chemically by identifying a molecular structure involving large rings, defying the prevailing theories of the time regarding atomic composition. The breakthrough was not only of great value to M. Naef, his employer, and the perfume industry at large, but also opened up avenues of other scientific research, “including study of previously unseen arrangements of atoms in space, new ring closure techniques, and identification of other biologically important molecules with a large ring structure, such as oxytocin.”

Ružička’s muscone work and his study of large rings additionally paved the way for further inquiry by American scientist Wallace H. Carothers, a research chemist at the industrial behemoth DuPont. During the First World War, DuPont and other American industries had greatly expanded, and by the late 1920s and early 1930s the company was leveraging this prosperity to diversify its holdings and develop new products.

While Carothers was not directly engaged in work with perfume, he and organic chemist Julian W. Hill used Ružička’s large ring findings to inform a new method of polymer synthesis that would ultimately lead to the invention of nylon and polyester.

“The codevelopment of knowledge about perfume and polymers,” writes Shyndriayeva, “points to what was driving Ružička’s and Carothers’s research: investigation of some of the most pertinent theoretical questions about chemical structure at the time.”

The unappreciated significance of perfume research reflects, Shyndriayeva notes, a more general disdain for scholarship regarding the “aesthetic-industrial complex.” Some historians—and female historians, in particular—have attempted to correct this imbalance, turning their analysis to “the importance of looks and attractiveness as attributes mobilized for national and political agendas, as essential components for understanding race, class, and gender.”

The article argues that the story of perfume is hardly just a frivolous footnote in the history of science—instead intersecting with the legacies of war, , and global networks of commerce and development. The study of fragrance and other trivialized subjects could yield a richer, more diverse study of history, and offer up “new paths for reflection.”

More information:
Galina Shyndriayeva, Musk and the Making of Macromolecules: Perfumes and Polymers in the History of Organic Chemistry, Isis (2024). DOI: 10.1086/730307

Citation:
Atomizer of history: How perfume research has shaped a century of scientific innovation (2024, June 5)
retrieved 6 June 2024
from https://phys.org/news/2024-06-atomizer-history-perfume-century-scientific.html

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