Press Release

Breakthrough in the ultrafast growth of superconducting films with high performances

  • The new low-cost, environmentally friendly and scalable method, designed by ICMAB-CSIC researchers, represents a breakthrough in the production of superconducting materials
  • transient liquid phase is formed with the new precursors, from which the superconducting films grow at speeds of 100 nm/s
  • This method is fully compatible with the incorporation of nanoparticles into the superconductor structure, essential for high magnetic field applications in wind generators, electric aviation or particle accelerators

Nanoneedles to increase the capacity and robustness of digital memories

Researchers at the ICMAB, UAB and the ALBA Synchrotron, in collaboration with the UB and ICN2, have developed a new technique to locally modify the properties of a metamagnetic material. The method consists in applying local pressure to the surface of the material using nanometric needles and allows a much more easy and local modification than current methods. The research opens the door to a more accurate and precise control of magnetic materials and allows to improve the architecture and capacity of magnetic digital memories.

New fluorescent nanoparticles to see what is invisible to the eye

Researchers from the Nanomol group at the Institute of Materials Science of Barcelona (ICMAB-CSIC), the CIBER-BBNnetwork and the ICTS Nanbiosis U6, and members of the TECNIO technology transfer network ACCIÓ-Generalitat de Catalunya, together with the New Jersey Institute of Technology (NJIT, USA) and the University of Parma (UNIPR, Italy) have developed a new nanomaterial for bioimaging. The results of the study are the result of the TECNIOspring PLUS project co-financed by ACCIÓ and the European Commission.

Towards green energies: new materials for biobutanol separation

Researchers from the Institute of Materials Science of Barcelona (ICMAB-CSIC) have discovered a water stable metal-organic framework (MOF) that allows for the separation of butanol from acetone-butanol-ethanol (ABE) mixtures that are extracted from the fermentation process of biomass feedstock, as part of the standard industrial process to produce biofuels. This new compound, mCB-MOF-1, shows promising results compared to other methodologies or other MOF materials. The study is published in JACS on 27 April 2020. 


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