Scientists are investigating how fullerene nanomaterials can be used as antivirals against different variants of SARS-CoV-2 and other viruses.
Bio-inspired robotic eyes that better estimate motion
Event cameras mimic the human eye to allow robots to navigate their environment, and a new approach helps minimize computational costs.
Entangling particles helps improve the accuracy of quantum measurements
Using 19 different quantum computers, scientists demonstrate how entangled particles break limitations in accuracy on the sub-atomic scale.
Searching for dark matter in our solar system
Sending atomic and nuclear clocks into the inner reaches of our solar system could help scientists find proof of elusive dark matter.
Can art help us understand our own brain?
The exhibition Brain(s) uses artistic installations to explore unanswered questions and the relationship between science and culture.
How accurate are our models of rotating neutron stars?
Comparing algorithms used to model spinning neutron stars, scientists hope to better understand the physics of the elementary particles that make them up.
Global heating may be fast and sudden—and current climate models don’t predict it
A new study shows that even after millennia of apparent climate stability, global temperatures might suddenly increase at dramatic speeds.
Seahorse-inspired grabbing robots to help clean up our oceans
Researchers take a lead from seahorse tails to develop grasping robots that could help clear up trash from our oceans.
Artificial neural networks made from memristors for brain-inspired computing
Artificial neural networks made from domain walls mimic synapses and neurons in the brain for neuromorphic computers.
Building ultra-precise clocks thanks to quantum entanglement
Scientists use quantum entanglement to compare two atomic clocks achieving what might be the ultimate precision possible.