Press Release

Sole Roig, researcher at the NN group at ICMAB-CSIC, showing a sample of a hybrid mesh of surgical polypropylene and the bio-based bacterial nanocellulose. | ICMAB-CSIC

Bio-nanocellulose meshes improve hernia repair surgery

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Bacterial nanocellulose is an emergent biocompatible natural polymer with increasing applicability in the healthcare sector. A potential innovative application can be found in the design of surgical meshes for the treatment of abdominal hernias. Researchers from ICMAB-CSIC and B. Braun Surgical, a leading manufacturer of medical devices for wound closure, have collaborated to develop a bio-based surgical mesh with this biomaterial. First results from an in vivo animal study yield promising outcomes.

Press Release, Top Science Results

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A) Spatial organisation of the catalytic biostructures. B) and C) Detail of the two types of amino acids and their interactions.

Nanoenzymes designed with a unique combination of structure and functions

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ICMAB researchers from the LMI group have collaborated in a study to design minimalist biostructures that imitate natural enzymes, capable of carrying out two differentiated and reversibly regulated activities thanks to a unique combination of structural and functional properties. The strategy used opens the door to the creation of “intelligent” nanomaterials with tailor-made combinations of catalytic functions.

Press Release, Top Science Results

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Smart4Fabry Lab in VHIR | ICMAB

A more effective nanomedicine developed for the treatment of Fabry rare disease designated as Orphan Drug

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This is one of the major achievements of the European Smart4Fabry project, which is now coming to an end after four years of work. The results have been made possible thanks to nanotechnology and the approach developed could be applied to other drugs in the future. The new drug improves on current treatments, helps reduce costs and improve patients' quality of life.

Press Release, Project Results, Breaking News, 2021

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Irene Anton, researcher at the NN group, holding a bacterial nanocellulose membrane

Bio-membranes with ocular stem cells to treat corneal disorders

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The production, preparation, and use of bacterial nanocellulose as corneal bandages could be the key to help delicate stem cells to migrate to the cornea and heal the eye from a range of ocular disorders.

Press Release, Top Science Results

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Mariano Campoy-Quiles and Xabier Rodríguez-Martínez, co-authors of the study, in their lab | ICMAB

Machine learning to predict the performance of organic solar cells

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In this study, researchers have demonstrated that by feeding machine-learning algorithms with high-throughput experimental datasets, it is possible to retrieve predictive models for the performance of organic solar cells.

Press Release, Top Science Results, Breaking News, 2021

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A photon reverses the binary 0/1 state of a memory device

Storing information with light

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New photo-ferroelectric materials allow to store information in a non-volatile way using light stimulus. The idea is to create energy efficient memory devices with high performance and versatility to face the challenges of the current society.
 
The study has been publishd in Nature Communications by Josep Fontcuberta and co-workers and opens a path towards further investigations on this phenomenon and to neuromorphic computing applications. 

Press Release, Breaking News, 2021

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Borate-based passivation layers enables reversible calcium batteries

A study published in the journal Energy and Environmental Science has combined experimental and theoretical approaches to study the passivation layers formed on calcium metal electrodes and their influence on the reversible operation of calcium-based batteries. The work is led by researchers from the ICMAB-CSIC, who have collaborated with the ALBA Synchrotron (MIRAS beamline) as well as with other international laboratories and universities. 

Press Release, Top Science Results

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The ICMAB Annual Report 2019 is now published online!

The ICMAB publishes its Annual Report 2019, which covers the most remarkable activities of 2019, a selection of scientific highlights, and the main outcomes of the actions supported by the Severo Ochoa project (2016-2019). Check it out!

Press Release, 2020

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Practical and versatile micro-patterning for organic electronics and photonics

Scientists have managed to draw at high resolution and speed, local patterns in organic semiconductor films used in optoelectronic and photonic applications. The new method enables the patterning of material characteristics and concomitant final properties, including molecular conformation, orientation, crystallinity and composition. The technique, published with open access in Nature Communications, has also been patented and industrial partners are sought for further co-development.

Press Release, Top Science Results, TT Patents & Techno Offers, 2020

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Emulating the plasticity of synapses between neurons in a physical system by light stimuli

This is the first case of a 2D electron system, in which the electron population can be increased and reduced in a controlled way by light. The study, published in Physical Review Letters, has been carried out by Gervasi Herranz and co-workers from the Laboratory of Multifunctional Thin Films and Complex Sructures (MULFOX) group at the ICMAB. 

Press Release, Top Science Results, 2020

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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-BBN network 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.

Press Release, Top Science Results, 2020

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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.

Press Release, 2020

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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. 

Press Release, 2020

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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

Press Release, 2020

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