The ALBA Synchrotron Light Source and the Institute of Materials Science of Barcelona (ICMAB-CSIC) have opened a new laboratory at ALBA with the aim to enhance studies in the field of battery research and high temperature superconducting tape developments. The new facility enables users of ALBA, including the important community of CSIC researchers, to significantly optimize experiments involving synchrotron light. The project was jointly funded by the CSIC PTI+ TransEner, funded by the European NextGeneration funds and the Recovery, Transformation and Resilience Plan and ALBA.
The European research project ReMade@ARI, where the ALBA Synchrotron participates, has opened a specific call to conduct industrial experiments in the field of circular economy. The call is open until 28 November 2023 and enables access to more than 50 European research infrastructures, including synchrotron and neutron facilities or electron microscopy platforms, among others.
Scientists from EPFL and CSEM have made remarkable progress in the photovoltaics field, specifically in perovskite-on-silicon tandem solar cells, by achieving an impressive efficiency of 31.25%. This noteworthy accomplishment is a result of advancements in materials and processes that have successfully unlocked the true potential of this emerging technology. Studies at NCD-SWEET beamline of ALBA have been carried out to analyse these materials. The scientific breakthrough behind this milestone has been published in Science, representing a significant step towards a greener, cleaner energy future and the ongoing energy transition.
Researchers from different universities and research facilities, have unveiled how a topological semimetal reacts under high pressure. This compound has great potential in multiple applications such as optical detectors, spintronics, water-splitting devices or 2D field effect transistors. By using X-ray diffraction at the ALBA Synchrotron and Elettra (Italy), along with other techniques, they found out the structural, vibrational and electronic fingerprints of two pressure-induced phase transitions in this material/compound. Results have been published in Materials Today Advances.