Chirality is one of the most familiar ideas in science. Human hands are chiral because the left and right hand are mirror images that cannot be perfectly aligned on top of one another. The same idea appears in chemistry, where molecules with opposite handedness can behave very differently. In recent years, physicists have discovered that […]
Nanogels are among the most interesting examples of how chemists can build useful structures by working at the scale of single molecules. They are tiny soft particles made from polymers, long chain-like molecules, that are linked together into small three-dimensional networks. Because they can hold water and trap other molecules inside, nanogels are especially attractive […]
If you’ve ever sat by a quiet pond and tapped the surface of the water with your finger once every second, you’d expect to see a ripple travel outward once every second. In the world of classical physics, the effect follows the cause in a predictable, rhythmic march. But imagine for a moment that you […]
Chemistry • DIPC Advanced materials • DIPC Electronic Properties • Materials
Carbon is one of the most versatile elements in the periodic table. Beyond the familiar forms of graphite and diamond lies a rich family of carbon structures with surprising and useful properties. Among these, graphene, a single two-dimensional (2D) allotrope consisting in a layer of carbon atoms arranged in a perfect hexagonal lattice, has captivated […]
In recent decades, researchers have developed advanced techniques to detect and manipulate individual photons. A particularly intriguing field examines how nanoscale light emitters, resembling artificial atoms, produce these photons. In this vein, a new study addresses a subtle question: when two such emitters release photons that are red-shifted due to energy loss, do these photons […]
Condensed matter • DIPC Advanced materials • Materials • Quantum physics
In the layered kagome metal CsV₃Sb₅, researchers have observed something that, until now, seemed almost impossible: robust quantum interference in the normal, non-superconducting state, persisting over distances of several micrometers. The interference is not the fragile single-particle kind seen in ultra-clean semiconductors at millikelvin temperatures. Instead, it behaves as if the entire stack of kagome […]
Imagine electrons as tiny particles zipping through a material, each carrying two key properties: charge, which powers our everyday electronics, and spin, like a little internal compass needle that points up or down. Charge flow is what we call electric current, but spin adds a magnetic twist, opening doors to advanced technologies like more efficient […]
DIPC Advanced materials • DIPC Electronic Properties • Materials
Picture this: Your home’s walls don’t just keep out the rain—they soak up warmth from the sun during the day, slowly release it to keep you cosy at night, and even convert some of that heat into a trickle of electricity to power your lights or charge your phone. This isn’t science fiction; it’s the […]
If you’ve ever fallen down a Wikipedia rabbit hole—clicking link after link until you’re far from where you started—you’ve explored a network, much like physicists map connections in systems like the internet or ecosystems. Each Wikipedia article is a dot, each hyperlink a line connecting ideas. This vast web, built by millions of contributors, mirrors […]
At first glance, molecules seem too small and too chaotic to be controlled with light. Their atoms jiggle ceaselessly, driven by thermal energy, and their vibrations—tiny oscillations of chemical bonds—usually remain hidden in the background. But recent work has shown that we can, in fact, use light not only to measure these vibrations but also […]