The Dangers of Hype: How a Bold Claim and Sensational Media Unraveled a Company

The Dangers of Hype: How a Bold Claim and Sensational Media Unraveled a Company

Magnetic resonance imaging of the brain.

(© Maxim Pavlov/Fotolia)


Keep Reading Keep Reading
Addison Nugent
Addison Nugent is a professional freelance journalist based out of Paris, France. Like so many Americans before her, she fell in love with the French capital at a young age and never left. She graduated from the Sorbonne's Master of the Arts literary research program with honors in 2016, and has since pursued a career in journalism. She has accumulated a diverse portfolio of published work that includes investigative pieces, in-depth profiles, historical deep dives, and tech news. Her work has been featured in such publications as OZY, Vice Motherboard, Atlas Obscura, Dazed Digital and Messy Nessy Chic.
Nobel Prize goes to technology for mRNA vaccines

Katalin Karikó, pictured, and Drew Weissman won the Nobel Prize for advances in mRNA research that led to the first Covid vaccines.

Adobe Stock

When Drew Weissman received a call from Katalin Karikó in the early morning hours this past Monday, he assumed his longtime research partner was calling to share a nascent, nagging idea. Weissman, a professor of medicine at the Perelman School of Medicine at the University of Pennsylvania, and Karikó, a professor at Szeged University and an adjunct professor at UPenn, both struggle with sleep disturbances. Thus, middle-of-the-night discourses between the two, often over email, has been a staple of their friendship. But this time, Karikó had something more pressing and exciting to share: They had won the 2023 Nobel Prize in Physiology or Medicine.

Keep Reading Keep Reading
Ross Pomeroy
Steven Ross Pomeroy is the editor of RealClearScience. As a writer, Ross believes that his greatest assets are his insatiable curiosity and his ceaseless love for learning. Follow him on Twitter
Scientists turn pee into power in Uganda

With conventional fuel cells as their model, researchers learned to use similar chemical reactions to make a fuel from microbes in pee.

Adobe Stock

At the edge of a dirt road flanked by trees and green mountains outside the town of Kisoro, Uganda, sits the concrete building that houses Sesame Girls School, where girls aged 11 to 19 can live, learn and, at least for a while, safely use a toilet. In many developing regions, toileting at night is especially dangerous for children. Without electrical power for lighting, kids may fall into the deep pits of the latrines through broken or unsteady floorboards. Girls are sometimes assaulted by men who hide in the dark.

For the Sesame School girls, though, bright LED lights, connected to tiny gadgets, chased the fears away. They got to use new, clean toilets lit by the power of their own pee. Some girls even used the light provided by the latrines to study.

Urine, whether animal or human, is more than waste. It’s a cheap and abundant resource. Each day across the globe, 8.1 billion humans make 4 billion gallons of pee. Cows, pigs, deer, elephants and other animals add more. By spending money to get rid of it, we waste a renewable resource that can serve more than one purpose. Microorganisms that feed on nutrients in urine can be used in a microbial fuel cell that generates electricity – or "pee power," as the Sesame girls called it.

Keep Reading Keep Reading
Jenny Morber
Jenny Morber was trained as a scientist and engineer at Georgia Tech, then lost all chance at a Nobel Prize by pivoting to journalism. She writes from the mossy Pacific Northwest about science, people and the world. She misses seeing atoms but is grateful that her days are filled with fresh air, new ideas and interesting people.