Donostia International Physics Center (DIPC) is a singular research center born in 2000 devoted to research at the cutting edge in the fields of Condensed Matter Physics and Materials Science. Since its conception DIPC has stood for the promotion of excellence in research, which demands a flexible space where creativity is stimulated by diversity of perspectives. Its dynamic research community integrates local host scientists and a constant flow of international visiting researchers.
When we peel a crystal down to its very last layer, the physics governing its behavior undergoes a radical shift. This transition from the bulk (three-dimensional) to the two-dimensional limit is where some of the most exotic phenomena in condensed matter physics emerge. Among these, Titanium Diselenide, or TiSe₂, has long fascinated researchers because of […]
When we look at the night sky, we see a scattered collection of stars and galaxies, but to an astrophysicist, these are merely the glowing foam on the crest of a much deeper, invisible ocean. The vast majority of the matter in our universe is dark matter, a substance that does not emit, absorb, or […]
In the world of organic chemistry, some rules are taught as absolute boundaries. One of the most famous is Bredt’s rule, a guideline that has dictated the limits of molecular architecture for nearly a century. This rule essentially places a “keep off the grass” sign on certain parts of a molecule, specifically forbidding the formation […]
Condensed matter • DIPC Advanced materials • Materials • Quantum physics
When we study solid-state physics, we usually begin with crystals. In a crystal, atoms repeat in a strict and regular pattern, much like tiles on a bathroom floor. Because every small region looks the same as every other, electrons move through a predictable landscape. This repeating order is the reason we can explain electricity, magnetism […]
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 […]
One of the most fascinating ideas in physics is how we can turn heat into useful work. This is the basic principle behind all sorts of engines, like the ones that power cars or generate electricity in power plants. For over a hundred years, scientists have relied on the laws of thermodynamics to figure out […]
Most of the electronic devices we use every day, from smartphones to solar panels, depend on electrons moving smoothly through crystal structures. In recent years, however, researchers have discovered that stacking extremely thin materials in carefully chosen ways can produce completely new types of behavior that never appear in ordinary bulk materials. One of the […]
One of the most striking discoveries made by the James Webb Space Telescope, together with earlier observations from the Hubble Space Telescope, is that many galaxies in the young universe look very different from those we see around us today. Instead of graceful spiral disks or rounded ellipses, a large fraction of galaxies observed when […]
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 […]
Antimicrobial peptides (AMPs) are highly potent and broad-spectrum antibiotics, found as components of the innate immune system in almost all forms of life. AMPs are short proteins, tiny compared with conventional antibiotics but extraordinarily effective: they bind to and disrupt bacterial membranes, which quickly incapacitates or kills a cell. For decades, the picture many scientists […]