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.
Organic electronics in the form of organic solar cells — thin, flexible, and printable on everyday surfaces — promise a sustainable future in renewable energy. Unlike traditional silicon-based solar panels, organic photovoltaic (OPV) devices rely on carbon-based polymers, a class of molecules more commonly associated with plastic bags than power generation. Among these, a family […]
Chemistry • Condensed matter • DIPC Computer Science • DIPC Electronic Properties • Quantum chemistry
Quantum chemistry is a field that dives into the behaviour of atoms and molecules at their most fundamental level, using the principles of quantum mechanics to understand how electrons interact within these systems. For researchers, one of the biggest challenges is studying systems where electrons are strongly correlated—meaning their movements are highly interdependent, like dancers […]
In the realm of modern physics, few materials have captured the imagination quite like graphene, a single layer of carbon atoms arranged in a honeycomb lattice. Its remarkable properties, such as exceptional electrical conductivity and strength, have made it a cornerstone of research into quantum materials. A recent study published in Nature takes this fascination […]
Chemistry • DIPC Advanced materials • DIPC Interfaces • Materials • Nanotechnology
Nanotechnology is like a playground for scientists, where they tinker with materials at the scale of atoms to create new tools and devices with extraordinary properties. One of the most exciting areas in this field involves nanographenes, which are tiny pieces of graphene—a single layer of carbon atoms arranged in a honeycomb pattern, known for […]
Biochemistry • Biology • Computer science • DIPC Biochemistry • DIPC Computer Science
Imagine peering through a microscope, marvelling at the intricate dance of cells, proteins, or tiny structures within a living organism. These images, known as bioimages, are a treasure trove of information for scientists studying life’s mysteries, from how cells divide to how diseases disrupt tissues. But analysing these images is no small feat. The sheer […]
Imagine sending a tiny particle, like an electron, through a material so thin it’s just a single layer of atoms. You’d expect it to take a certain amount of time to pass through, right? Maybe a little longer if the material gets thicker, or shorter if it’s super thin. But what if the electron seemed […]
In the quest to unravel the mysteries of the universe, scientists are turning to tiny glowing molecules and powerful microscopes to detect elusive particles. Two groundbreaking studies, one published in ACS Sensors in 2025 and another in Nature Communications in 2024, showcase innovative approaches to detecting barium ions in high-pressure xenon gas. These advancements are […]
Imagine a glass of water or a bottle of ethanol. These are molecular liquids, substances where molecules are free to move but are still closely packed, interacting with each other through forces like hydrogen bonds or weaker attractions. Scientists have long been fascinated by how these molecules move and interact, especially at scales that are […]
A quiet revolution is unfolding in the study of distant galaxies, one that lets astronomers pinpoint individual stars across the vast gulfs of time and space. Using the James Webb Space Telescope (JWST), a team of researchers has identified over 40 individual stars in a single galaxy located halfway across the observable universe. These stars […]
Quantum simulation, a concept that once seemed like science fiction, is now revolutionizing the way physicists study the quantum world. The idea, famously suggested by Richard Feynman in the 1980s, is to use a controllable quantum system to mimic the behaviour of another system that is too complex to study directly. Over time, researchers have […]