Strange metals and our own personal ‘oxidation fields’
People’s skin helps make reactive particles that can change indoor air chemistry, and scientists get closer to understanding a state of matter that may one day yield room-temperature superconductors
Science Magazine Podcast · Science Magazine
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Show Notes
First up on the podcast, freelance journalist Zack Savitsky joins host Sarah Crespi to talk about the strange metal state. Physicists are probing the behavior of electrons in these materials, which appear to behave like a thick soup rather than discrete charged particles. Many suspect insights into strange metals might lead to the creation of room-temperature superconductors, highly desired materials that promise lossless energy delivery and floating trains.
A few years ago, researcher Nora Zannoni came on the show to talk about our oxidation fields: zones of highly reactive radicals our bodies naturally produce that surround us and interact with nearby chemicals. Now she’s back to discuss how our personal oxidation fields interact with personal care products—such as hand lotion, for example—and the resulting effects those products can end up having on the air we breathe indoors.
Zannoni is currently a postdoctoral researcher at the Institute of Atmospheric Sciences and Climate of Italy’s National Research Council. The work for the paper was done when she was a postdoc scientist at the Max Planck Institute for Chemistry.
This week’s episode was produced with help from Podigy.
Authors: Sarah Crespi; Zack Savitsky
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