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 […]
In polymer science, the classic division is between thermoplastics, which soften and flow when heated, and thermosets, which are permanently cross-linked and keep their shape no matter how hot they get—at least until they burn. In the last decade, researchers have discovered a fascinating new class of materials called vitrimers, which sit between these two […]
Chemistry • DIPC Computational and Theoretical Chemistry • Quantum chemistry
Quantum computers promise to change how we calculate the behavior of electrons in molecules, but for the machines we have now — noisy, limited in size and coherence — the challenge is to squeeze the most chemistry out of the least quantum hardware. Now, a new paper introduces a practical trick to do exactly that: […]
Light can do remarkable things, but it has limitations. Ordinary photons are bound by diffraction, which sets a limit on how tightly they can be confined in space. This is why focusing light to spots smaller than about half its wavelength is so difficult. But in certain materials, photons couple to vibrations of atoms or […]
The mystery of dark matter remains one of the most profound puzzles in modern astrophysics. We know it outweighs ordinary matter by a factor of five, yet it neither shines nor absorbs light. Its presence is betrayed only by the pull of gravity, shaping galaxies and bending light from more distant objects. For decades, scientists […]
When you look at a crystal—say, a piece of salt or a sheet of graphene—its atoms are not randomly scattered. They form an orderly grid, like tiles on a floor. Because the atoms are arranged in this repeating way, electrons moving through the crystal don’t behave as if they’re in free space. Instead, their motion […]
In physics, waves often reveal more than meets the eye. A ripple on a pond looks simple enough, but beneath its surface lies a rich mathematical structure that can connect something as everyday as water to the abstract worlds of optics, acoustics, and even quantum mechanics. A recent work brings this connection vividly to life […]
Positron Emission Tomography, or PET, is one of medicine’s most powerful tools for looking inside the human body, revealing not only anatomy but also how tissues are functioning. In a PET scan, a patient receives a tiny dose of a radioactive tracer that emits positrons, the antimatter counterparts of electrons. When a positron encounters an […]
Biochemistry • Biotechnology • Catalysis • Chemical engineering • Chemistry
Authors: Fernando López-Gallego, Principal Investigator, Ikerbasque Professor and group leader at the Heterogeneous Biocatalysis Laboratory at CIC biomaGUNE; Ainhoa Oliden-Sánchez, Postdoctoral Researcher at the Heterogeneous Biocatalysis Laboratory at CIC biomaGUNE; Clara García-Gorro, Science Communication Manager at CIC biomaGUNE. Self-sufficient heterogeneous biocatalysts are emerging as powerful tools for greener, more efficient chemical manufacturing. By cleverly combining […]
Biochemistry • Chemistry • DIPC Biochemistry • Medicine • Nanotechnology
When you hear the word nanoparticle, it might sound like something futuristic or abstract. In reality, nanoparticles—tiny structures tens of thousands of times smaller than the width of a human hair—are already part of modern medicine. Some are used to deliver drugs more effectively, while others help doctors see inside the body by acting as […]