The Material Science Institute of Madrid, ICMM-CSIC, aims to generate cutting-edge knowledge on materials and processes crucial for addressing societal challenges
Álvaro Jiménez and Rui Silva led two studies published in Nature that demonstrate a new theory for light manipulation with intense light pulses in bidimensional materials. These works carried out at the scale of femtoseconds, a billionth of a second, could be key to optimizing the capacity of these materials in information processing
The study, led by IMNA with participation from ICMM, is a worldwide milestone and has potential applications in technological devices that require a defined magnetic field, such as a computer's RAM memory.
The "4ºESO+Empresa" program is an educational initiative in the Community of Madrid aimed at providing students of this grade with work experiences in companies of their interest
Eider Berganza, Rui E. Silva, José Carlos García-Abadillo Uriel, and Javier Pérez Carvajal get these fellowships for researchers with an "outstanding career".
En él participa activamente el Instituto de Ciencia de Materiales de Madrid desde sus inicios, con especial implicación del grupo Nanostructured Hybrid, Biohybrid and Porous Materials.
These new devices utilize graphene-derived nanomaterials that promote the anti-inflammatory function of suppressive myeloid cells. The study demonstrates the capability of these nanomaterials as successful nanotechnological tools for autoimmune diseases or cancer.
The biomaterial developed by the ICMM-CSIC is combined with magnetic fields to create a matrix that will allow colonization by neural cells of the damaged areas of the spinal cord
A team from the Materials Science Institute of Madrid leads a research that achieves a zeolite with extra-large pores by expanding and connecting silica chains. This material has applications in water and gas decontamination and catalysis.