BEGIN:VCALENDAR VERSION:2.0 PRODID:-//a hub for materials research - ECPv6.15.16//NONSGML v1.0//EN CALSCALE:GREGORIAN METHOD:PUBLISH X-WR-CALNAME:a hub for materials research X-ORIGINAL-URL:https://remade-project.eu X-WR-CALDESC:Events for a hub for materials research REFRESH-INTERVAL;VALUE=DURATION:PT1H X-Robots-Tag:noindex X-PUBLISHED-TTL:PT1H BEGIN:VTIMEZONE TZID:Europe/Paris BEGIN:DAYLIGHT TZOFFSETFROM:+0100 TZOFFSETTO:+0200 TZNAME:CEST DTSTART:20230326T010000 END:DAYLIGHT BEGIN:STANDARD TZOFFSETFROM:+0200 TZOFFSETTO:+0100 TZNAME:CET DTSTART:20231029T010000 END:STANDARD BEGIN:DAYLIGHT TZOFFSETFROM:+0100 TZOFFSETTO:+0200 TZNAME:CEST DTSTART:20240331T010000 END:DAYLIGHT BEGIN:STANDARD TZOFFSETFROM:+0200 TZOFFSETTO:+0100 TZNAME:CET DTSTART:20241027T010000 END:STANDARD BEGIN:DAYLIGHT TZOFFSETFROM:+0100 TZOFFSETTO:+0200 TZNAME:CEST DTSTART:20250330T010000 END:DAYLIGHT BEGIN:STANDARD TZOFFSETFROM:+0200 TZOFFSETTO:+0100 TZNAME:CET DTSTART:20251026T010000 END:STANDARD BEGIN:DAYLIGHT TZOFFSETFROM:+0100 TZOFFSETTO:+0200 TZNAME:CEST DTSTART:20260329T010000 END:DAYLIGHT BEGIN:STANDARD TZOFFSETFROM:+0200 TZOFFSETTO:+0100 TZNAME:CET DTSTART:20261025T010000 END:STANDARD BEGIN:DAYLIGHT TZOFFSETFROM:+0100 TZOFFSETTO:+0200 TZNAME:CEST DTSTART:20270328T010000 END:DAYLIGHT BEGIN:STANDARD TZOFFSETFROM:+0200 TZOFFSETTO:+0100 TZNAME:CET DTSTART:20271031T010000 END:STANDARD END:VTIMEZONE BEGIN:VEVENT DTSTART;TZID=Europe/Paris:20240925T113000 DTEND;TZID=Europe/Paris:20240926T144500 DTSTAMP:20260404T072523 CREATED:20240902T092731Z LAST-MODIFIED:20240902T092731Z UID:10000053-1727263800-1727361900@remade-project.eu SUMMARY:Workshop on advanced X-ray techniques for studying biobased materials for circular economy DESCRIPTION:We are excited to announce the workshop on advanced X-ray techniques for studying biobased materials for circular economy organized by ReMade@ARI in collaboration with the Treesearch initiative. The workshop is hosted at the ForMAX beamline at MAX IV (Lund\, Sweden) from 25th to 26th September 2024. \nThis event represents a great opportunity to learn more about advanced X-ray techniques and their application to the investigations of biobased materials for the circular economy. It also provides the perfect chance to learn more about the journey how to become a user of large-scale research infrastructures such as MAX IV. \nYou can expect presentations from academia and industry on cutting-edge development in the field of biobased materials. \nAbstract submission deadline: 26th of August 2024.\nRegistration deadline: 9th of September 2024. \n  URL:https://remade-project.eu/index.php/event/workshop-on-advanced-x-ray-techniques-for-studying-biobased-materials-for-circular-economy/ LOCATION:MAX IV Laboratory\, Fotongatan 2\, 224 84 Lund Sweden CATEGORIES:Workshop ATTACH;FMTTYPE=image/jpeg:https://remade-project.eu/wp-content/uploads/2024/09/visual-workshop-at-MAX-IV.jpg END:VEVENT BEGIN:VEVENT DTSTART;TZID=Europe/Paris:20240927T100000 DTEND;TZID=Europe/Paris:20240927T110000 DTSTAMP:20260404T072523 CREATED:20240613T110524Z LAST-MODIFIED:20241002T091249Z UID:10000048-1727431200-1727434800@remade-project.eu SUMMARY:Hyperspectral Imaging and microscopy DESCRIPTION:Zoom webinar | Replay on Youtube\n  \nCristian Manzoni\, \nIFN-CNR & Polimi\, Italy \nSpectral imaging\, also known as imaging spectroscopy\, refers to methods and devices for acquiring a complete light spectrum for each point in the image of a scene. It provides much richer information with respect to standard imaging\, enabling to identify materials or detect dynamical processes. Spectral imaging has been applied to a wide range of scientific investigations\, such as remote sensing\, pigment determination in biology\, medicine\, coastal ocean imaging\, water analysis\, agriculture\, cultural heritage and archaeology\, just to cite a few. In particular\, hyperspectral imaging aims at acquiring the whole continuous spectrum of each point of the scene. A powerful approach to this aim is to combine classical imaging with Fourier-transform spectrometry [1]. \nHyperspectral imaging in the Thermal infrared of a sample with mineral and artificial quartz. Left: False RGB image\, synthesized from the spectral data; Right: spectral emissivity.\nIn this talk\, I will describe the main properties of the spectral imaging and the current acquisition approaches. I will also show the most recent advancements obtained at the Istituto di Fotonica e Nanotecnologie (IFN-CNR)\, based on an innovative optical device [2]. \nOur compact hyperspectral system is able to acquire spectral reflectance and fluorescence images with high sensitivity\, broad spectral coverage and high spectral resolution. Examples of hyperspectral remote-sensing and microscopy images will be provided and discussed [3]. \nHyperspectral microscope fluorescence imaging of Invitrogen slide #1 (MitoTracker® Red CMXRos +Alexa Fluor® 488 phalloidin). Excitation: 2 lasers at 478 and 562 nm; Objective: 20X\, 0.45 NA. (a) Fluorescence of Filamentous F-actin at 470-550nm; (b) Fluorescence of mitocondria at 570-680 nm; (c) Merged maps.\nReferences \n[1] S.P. Davis\, M.C. Abrams\, and J.W. Brault\, Fourier Transform Spectrometry (Academic Press\, 2001)\n[2] D. Brida\, C. Manzoni\, and G. Cerullo\, “Phase-locked pulses for two-dimensional spectroscopy by a birefringent delay line\,” Opt. Lett. 37\, 3027-3029 (2012)\n[3] A. Perri\, B. E. Nogueira de Faria\, D. C. Teles Ferreira\, D. Comelli\, G. Valentini\, F. Preda\, D. Polli\, A. M. de Paula\, G. Cerullo\, and C. Manzoni\, “Hyperspectral imaging with a TWINS birefringent interferometer\,” Opt. Express 27\, 15956-15967 (2019) URL:https://remade-project.eu/index.php/event/hyperspectral-imaging-and-microscopy/ CATEGORIES:Seminar ATTACH;FMTTYPE=image/jpeg:https://remade-project.eu/wp-content/uploads/2024/06/240927_ReMade@ARI_webinars_Manzoni.jpg END:VEVENT BEGIN:VEVENT DTSTART;TZID=Europe/Paris:20241018T140000 DTEND;TZID=Europe/Paris:20241018T150000 DTSTAMP:20260404T072523 CREATED:20240326T131035Z LAST-MODIFIED:20241018T172301Z UID:10000046-1729260000-1729263600@remade-project.eu SUMMARY:New Avenues for Molecular Architectures' Manipulation and Controlling Chemical Reactivity: Vibrationally Induced and Quantum Mechanical Tunneling Driven Chemistry DESCRIPTION:Zoom webinar | Replay on Youtube\n  \nRui Fausto\, \nCLL & UC\, Portugal \nIn the last decades\, we have assisted to rapid progress on the use of vibrationally-induced chemistry as a powerful tool to manipulate molecular structures in a highly selective way\, and on the application of quantum mechanical tunneling as an instrument to explore the reactivity of organic molecules in an unprecedented way. This progress has revealed new paradigms in organic chemistry reactivity\, which are being now made accessible to organic chemistry synthesis practitioners. Contributions to these topics from our laboratory have been recently reviewed in a Chem Soc. Rev. article [1]\, where the intertwining between the two research strategies has been highlighted. In the title of that article\, “IR-induced and tunneling reactions in cryogenic matrices: the (incomplete) story of a successful endeavor”\, we have emphasized that the story we presented therein was an incomplete one\, meaning not just that many others have given major contributions to the field\, but also that our own journey was still on the way. \nIn this talk\, the newest chapters of this story will be disclosed\, where new exciting findings and unexpected results challenging interpretation are described. \n\n“It takes all the running you can do\, to keep in the same place.If you want to get somewhere else\, you must run at least twice as fast as that!”Lewis Carrol\, in Alice in Wonderland\n\nAcknowledgment \nThis work was supported by Project PTDC/QUI-QFI/1880/2020\, funded by National Funds via the Portuguese Foundation for Science and Technology (FCT). The Coimbra Chemistry Centre − Institute of Molecular Sciences (CQC-IMS) is supported by FCT through projects UIDB/00313/2020\, UIDP/00313/ 2020 and LA/P/0056/2020\, co-funded by COMPETE. \n  \nReference \n[1] R. Fausto\, G. O. Ildiz and C. M. Nunes\, IR-induced and tunneling reactions in cryogenic matrices: the (incomplete) story of a successful endeavor\, Chem. Soc. Rev.\, 512 (2022) 2853-2872. URL:https://remade-project.eu/index.php/event/vibrationally-induced-and-quantum-mechanical-tunneling-driven-chemistry/ CATEGORIES:Seminar ATTACH;FMTTYPE=image/jpeg:https://remade-project.eu/wp-content/uploads/2024/02/241018_ReMade@ARI_webinars_Fausto.jpg END:VEVENT BEGIN:VEVENT DTSTART;TZID=Europe/Paris:20241120T080000 DTEND;TZID=Europe/Paris:20241122T170000 DTSTAMP:20260404T072523 CREATED:20240801T160617Z LAST-MODIFIED:20240801T160919Z UID:10000051-1732089600-1732294800@remade-project.eu SUMMARY:Energy Materials in Circular Economy Meet X-rays & Neutrons DESCRIPTION:We are excited to announce the “Energy Materials in Circular Economy Meet X-rays & Neutrons” event\, organized by ReMade@ARI.\nThe conference will take place from 20th to the 22nd November 2024 at the ESRF in Grenoble\, France. \nThis event is organized jointly by the ESRF\, ILL\, and PSI\, and aims to bring together users of research infrastructure facilities with circular materials researchers curious about the advanced techniques available for characterisation of energy materials at the three host facilities. \nYou can expect presentations on cutting-edge development in the field of energy materials: \n\nfrom harvesting (e.g.\, solar panels)\nto storing (e.g.\, batteries and fuel cells)\nand conversion (e.g.\, electrolysers and catalysis processes)\,\n\nwith examples of research within the circular economy. \n  \nAbstract submission deadline: 1st of September.\nRegistration deadline: 15thof October URL:https://remade-project.eu/index.php/event/energy-materials-in-circular-economy-meet-x-rays-neutrons/ LOCATION:EPN science campus\, 71 avenue des martyrs\, Grenoble\, 38000\, France CATEGORIES:Workshop ATTACH;FMTTYPE=image/jpeg:https://remade-project.eu/wp-content/uploads/2024/08/241120_Workshop-Grenoble_v2-scaled.jpg END:VEVENT BEGIN:VEVENT DTSTART;TZID=Europe/Paris:20241122T100000 DTEND;TZID=Europe/Paris:20241122T110000 DTSTAMP:20260404T072523 CREATED:20240613T111535Z LAST-MODIFIED:20241120T081527Z UID:10000049-1732269600-1732273200@remade-project.eu SUMMARY:Exploring catalytic reactions from the ensemble average to the single particle limit using X-rays and scanning probe microscopy DESCRIPTION:Zoom webinar\n  \nAndreas Stierle\, \nDeutsches Elektronen Synchrotron DESY and Universität Hamburg \nOxide supported metal nanoparticles play a crucial role as heterogeneous catalysts for many reactions. In conventional x-ray diffraction (XRD) experiments on powder samples the structural analysis is hampered by a random nanoparticle orientation and often by background scattering from the supporting material. We have therefore investigated epitaxial metal nanoparticles on single crystal oxide supports\, which are stable under ambient pressure catalytic reaction conditions. The surface sensitive x-ray diffraction experiments deliver quantitative information on the nanoparticle size\, shape and facet surface structures under near ambient pressure operando CO oxidation conditions [1\,2]. We have identified active phases for CO oxidation at PtRh nanoparticle surface facets and reaction induced nanoparticle shape transformations. To bridge the gap to powder catalyst material\, we have performed operando single nanoparticle diffraction imaging experiments allow the surface composition determination under reaction conditions [3]. \n  \n[1] U. Hejral\, P. Müller\, O. Balmes\, D. Pontoni\, A. Stierle\, (2016): Tracking the shape-dependent sintering of platinum-rhodium model catalysts under operando conditions. Nat. Comm. 7\, p. 10964. DOI: 10.1038/ncomms10964.\n[2] U. Hejral\, D. Franz\, S. Volkov\, S. Francoual\, J. Strempfer\, A. Stierle\, (2018): Identification of a Catalytically Highly Active Surface Phase for CO Oxidation over PtRh Nanoparticles under Operando Reaction Conditions. In Phys. Rev. Lett. 120 (12)\, p. 126101. DOI: 10.1103/PhysRevLett.120.126101.\n[3] Y. Y. Kim\, T. F. Keller\, T. J. Goncalves\, M. Abuin\, H. Runge\, L. Gelisio J. Carnis\, V. Vonk\, P. N. Plessow\, I. A. Vartaniants\, A. Stierle (2021): Single alloy nanoparticle x-ray imaging during a catalytic reaction. In Science Advances 7. DOI: 10.18419/OPUS-6697. URL:https://remade-project.eu/index.php/event/exploring-catalytic-reactions-from-the-ensemble-average-to-the-single-particle-limit-using-x-rays-and-scanning-probe-microscopy/ CATEGORIES:Seminar ATTACH;FMTTYPE=image/jpeg:https://remade-project.eu/wp-content/uploads/2024/06/241122_ReMade@ARI_webinars_Stierle.jpg END:VEVENT BEGIN:VEVENT DTSTART;TZID=Europe/Paris:20241206T100000 DTEND;TZID=Europe/Paris:20241206T110000 DTSTAMP:20260404T072523 CREATED:20240704T162236Z LAST-MODIFIED:20241218T165840Z UID:10000050-1733479200-1733482800@remade-project.eu SUMMARY:Swift heavy ion irradiation puts InGaN/GaN multi-quantum wells on the way for efficient green light emission DESCRIPTION:Zoom webinar | Replay on Youtube\n  \nMamour Sall\, \nCIMAP (CEA\, CNRS\, ENSICAEN\, Univ. Caen)\, France \nThe nitride semiconductors\, (Al\,Ga\,In) N present remarkable optical and electronic properties. They have been widely used for optoelectronic applications with high-efficiency blue light-emitting diodes (LEDs)\nbased on InGaN/GaN multiple quantum well (MQW) structures [1]. Emission at higher wavelength\, for instance in the green\, could be obtained by increasing the concentration of indium but with a strong\nquantum-confined Stark effect due to piezoelectric polarization [2]. To mitigate this effect\, we created atomic intermixing at the InGaN/GaN MQW by using Swift Heavy Ion (SHI) irradiation. The resulting\nchemical composition gradient has been suggested to improve the MQW emission efficiency [3].\nThrough a careful combination of well-chosen energies SHI irradiation and low temperature thermal treatment\, either during or after irradiation\, we successfully created a compositional gradient at the MQWs\ninterfaces while preserving the material luminescence. \nReferences:\n[1] S. Nakamura et al.\, Japanese J. Appl. Physics\, Part 2 Lett.\, vol. 35\, no. 1 B\, p. L74\, Jan. 1996\n[2] S. P. Denbaars et al.\, Acta Mater.\, vol. 61\, no. 3\, pp. 945–951\, Feb. 2013\n[3] K. P. O’Donnell et al.\, Phys. Status Solidi – Rapid Res. Lett.\, vol. 6\, no. 2\, pp. 49–52\, 2012 URL:https://remade-project.eu/index.php/event/polymer-under-ionizing-radiation-an-evolution-towards-recycling/ CATEGORIES:Seminar ATTACH;FMTTYPE=image/jpeg:https://remade-project.eu/wp-content/uploads/2024/07/241206_ReMade@ARI_webinars_Sall.jpg END:VEVENT BEGIN:VEVENT DTSTART;TZID=Europe/Paris:20250228T100000 DTEND;TZID=Europe/Paris:20250228T110000 DTSTAMP:20260404T072523 CREATED:20250115T102654Z LAST-MODIFIED:20250303T090048Z UID:10000055-1740736800-1740740400@remade-project.eu SUMMARY:X-ray absorption spectroscopy under industrial conditions DESCRIPTION:Zoom webinar | Replay on Youtube\n Aram Bugaev\nPaul Scherrer Institute (PSI) \nX-ray absorption spectroscopy (XAS) is a well-recognized technique for investigating the atomic and electronic structure of functional materials. This is especially important for catalysis\, essential for a significant portion of industrial-scale chemical reactions\, where understanding the structure of active catalytic sites and their evolution during operation and degradation is crucial. XAS provides element-specific insights into the local atomic and electronic environment under realistic reaction conditions. This talk will present an overview of state-of-the-art synchrotron- and laboratory-based XAS techniques\, along with dedicated operando reactors designed to study materials under high pressures and temperatures in various aggregation states. Special emphasis will be placed on the recent successful experiments conducted within ReMade@ARI. URL:https://remade-project.eu/index.php/event/x-ray-absorption-spectroscopy-under-industrial-conditions/ CATEGORIES:Seminar ATTACH;FMTTYPE=image/jpeg:https://remade-project.eu/wp-content/uploads/2025/02/250228_ReMade@ARI-seminar_Bugaev2_cor.jpg END:VEVENT BEGIN:VEVENT DTSTART;VALUE=DATE:20250309 DTEND;VALUE=DATE:20250413 DTSTAMP:20260404T072523 CREATED:20240902T065301Z LAST-MODIFIED:20240902T065301Z UID:10000052-1741478400-1744502399@remade-project.eu SUMMARY:HERCULES European School 2025: Neutrons and synchrotron radiation for science DESCRIPTION:HERCULES EUROPEAN SCHOOL is a five weeks course coordinated by the Université Grenoble Alpes (UGA). The school provides training for students\, postdoctoral and senior scientists from European and non-European universities and laboratories\, in the field of Neutrons\, X-ray Synchrotron Radiation\, and Free Electron Laser for condensed matter studies (Biology\, Chemistry\, Physics\, Materials Science\, Geosciences\, Industrial applications). Neutron and X-ray science is integrated with complementary techniques like (but not only) optical and electron microscopy\, NMR\, optical spectroscopy. \nIt includes lectures\, practicals\, tutorials\, and visits of Large Facilities: ALBA in Barcelona\, KIT in Karlsruhe\, Petra III and European XFEL in Hamburg\, Elettra and FERMI in Trieste\, ESRF and ILL in Grenoble\, SOLEIL in Paris-Saclay\, and PSI in Villigen.\nThe language of the course is English.\nSee the general programme for more information. \n⭐️ Join the 2025 HERCULES European School! Advance Your Knowledge in Neutron and Synchrotron Radiation for Science!\n📆 Dates: 9th March to 12th April 2025\n📍 Location: Grenoble\, France\n⏳ Applications to the school are welcomed until October 6th\, 2024! URL:https://remade-project.eu/index.php/event/hercules-european-school-2025-neutrons-and-synchrotron-radiation-for-science/ LOCATION:Grenoble\, France CATEGORIES:School ATTACH;FMTTYPE=image/jpeg:https://remade-project.eu/wp-content/uploads/2024/09/flyer-HERCULES-2025-scaled.jpg END:VEVENT BEGIN:VEVENT DTSTART;TZID=Europe/Paris:20250321T100000 DTEND;TZID=Europe/Paris:20250321T110000 DTSTAMP:20260404T072523 CREATED:20250130T141938Z LAST-MODIFIED:20250401T150746Z UID:10000057-1742551200-1742554800@remade-project.eu SUMMARY:Quasielastic neutron scattering and an example of oxide ion diffusion in a solid electrolyte DESCRIPTION:Zoom webinar | Replay on Youtube\n Bettina Schwaighofer\, \nInstitut Laue-Langevin (ILL) \nQuasielastic neutron scattering (QENS) is a powerful technique for probing atomic and molecular motion on nanosecond to picosecond timescales. In many energy materials\, for example batteries and fuel cells\, understanding ionic migration and conduction pathways is crucial for optimising performance. QENS can provide a unique insight into both local and long-range diffusion\, with length- and time-scales comparable to molecular dynamics simulations. This complementarity helps interpret experimental data and validate computational models. This talk will introduce QENS and present a case study demonstrating how combining QENS with simulations can reveal key details of oxide ion diffusion in a solid electrolyte. URL:https://remade-project.eu/index.php/event/quasielastic-neutron-scattering-and-an-example-of-oxide-ion-diffusion-in-a-solid-electrolyte/ CATEGORIES:Seminar ATTACH;FMTTYPE=image/jpeg:https://remade-project.eu/wp-content/uploads/2025/02/250321_ReMade@ARI-seminar_Schwaighofer_cor.jpg END:VEVENT BEGIN:VEVENT DTSTART;TZID=Europe/Paris:20250425T140000 DTEND;TZID=Europe/Paris:20250425T150000 DTSTAMP:20260404T072523 CREATED:20250404T090857Z LAST-MODIFIED:20250822T080130Z UID:10000060-1745589600-1745593200@remade-project.eu SUMMARY:Small angle X-ray scattering: Exploring Nano-structural Behaviours of Proton Exchange Membranes DESCRIPTION:Zoom webinar | Replay on Youtube\n Santiago Pablo Fernandez Bordín\, \nMAXIV\, Sweden \nPolymeric fuel cells based on proton exchange membranes (PEMs) are promising electrochemical devices for clean energy generation. A key factor in optimizing their performance lies in understanding the structural and mechanical behaviour of PEMs under varying temperature and humidity conditions. In this context\, Dynamic Mechanical Analysis combined with Small- and Wide-Angle X-ray Scattering (DMA-SWAXS) provides a powerful approach to simultaneously probe nanostructural features—such as size\, shape\, and interfacial properties—and mechanical response. \nThis talk presents a comparative study of the nanostructure and mechanical properties of two PEMs\, investigated using DMA-SWAXS at the ForMAX beamline at MAX IV (Lund\, Sweden). URL:https://remade-project.eu/index.php/event/small-angle-x-ray-scattering-exploring-nano-structural-behaviours-of-proton-exchange-membranes/ CATEGORIES:Seminar ATTACH;FMTTYPE=image/jpeg:https://remade-project.eu/wp-content/uploads/2025/04/250425_ReMade@ARI-seminar_Fernandez-Bordin.jpg END:VEVENT BEGIN:VEVENT DTSTART;TZID=Europe/Paris:20250522T080000 DTEND;TZID=Europe/Paris:20250523T170000 DTSTAMP:20260404T072523 CREATED:20241203T114530Z LAST-MODIFIED:20250403T083134Z UID:10000054-1747900800-1748019600@remade-project.eu SUMMARY:Application of ReMade@ARI Characterisation Methods to Recyclable Materials DESCRIPTION:We are excited to announce the “APPLICATION OF REMADE@ARI CHARACTERISATION METHODS TO RECYCLABLE MATERIALS” event\, supported by ReMade@ARI. The workshop will take place from 22th to the 23nd May 2025 in Prague\, and is organised by the Nuclear Physics Institute of the Czech Academy of Science (NPI CAS). \nGet ready to dive into an exciting world of groundbreaking innovation! Our project partners are thrilled to present advanced techniques harnessing ion and neutron beams\, along with electrons\, positrons\, and high magnetic fields\, to revolutionize the characterization of recyclable materials. \nExpect to be amazed by presentations showcasing the latest developments in the field of recyclable materials. Discover miniaturized\, flexible devices designed for sensing\, catalysis\, energy storage\, hydrogen production\, pollutant degradation\, waste processing\, and analysis. You’ll have the opportunity to explore the deposition and preparation of nanostructures\, microstructures\, and surfaces\, including the use of ion beams to create functional devices such as microsensors\, micro-energy storage units\, and flexible microdevices. \nGain a comprehensive overview of the unique and indispensable analytical methods\, leveraging ion\, neutron\, electron\, and positron interactions with solids\, as well as high magnetic fields. These methods provide invaluable insights into research within the circular economy\, paving the way for a sustainable future. \n– Abstract submission deadline: 25 April 2025\n– Registration deadline: 30 April 2025\n– Event’s website: https://www.remade-workshopnpi.cz/ \nJoin us in this captivating journey and witness the remarkable advancements driving the future of recyclable materials and innovative technologies. URL:https://remade-project.eu/index.php/event/application-of-remadeari-characterisation-methods-to-recyclable-materials/ LOCATION:House of Czech Association of Scientific and Technical Societies\, Novotného lávka 5\,\, Prague 1\, Czech Republic CATEGORIES:Workshop ATTACH;FMTTYPE=image/jpeg:https://remade-project.eu/wp-content/uploads/2024/12/250522-Workshop-Prague_Visuel_16x9.jpg END:VEVENT BEGIN:VEVENT DTSTART;TZID=Europe/Paris:20250523T100000 DTEND;TZID=Europe/Paris:20250523T110000 DTSTAMP:20260404T072523 CREATED:20250424T143248Z LAST-MODIFIED:20250528T083511Z UID:10000061-1747994400-1747998000@remade-project.eu SUMMARY:X-ray Tomography – An Approach to Exploring Internal Structure DESCRIPTION:Zoom webinar | Replay on Youtube\n Zhenggang ZHANG \, \nESRF\, France \nX-ray tomography\, as one of the most impactful non-destructive imaging technologies\, has been well recognized and applied in materials science\, biology and medicine\, as well as in the industry and historical heritage applications. Thanks to the development of the extreme brilliance source (EBS) and algorithms\, current synchronous based X-ray tomography can achieve high resolution in both spatial and temporal scales\, separately in nanometer and MHz level. This webinar aims to show participants a big picture of this technology and will focus on the fundamental understanding of it followed by several examples. URL:https://remade-project.eu/index.php/event/x-ray-tomography-an-approach-to-exploring-internal-structure/ CATEGORIES:Seminar ATTACH;FMTTYPE=image/jpeg:https://remade-project.eu/wp-content/uploads/2025/04/230525_ReMade@ARI-seminars_Zhenggang-ZHANG.jpg END:VEVENT BEGIN:VEVENT DTSTART;TZID=Europe/Paris:20250616T113000 DTEND;TZID=Europe/Paris:20250617T200000 DTSTAMP:20260404T072523 CREATED:20250403T073418Z LAST-MODIFIED:20250514T090850Z UID:10000059-1750073400-1750190400@remade-project.eu SUMMARY:Industry meets ESRF: X-rays for innovation DESCRIPTION:The 𝐈𝐧𝐝𝐮𝐬𝐭𝐫𝐲 𝐦𝐞𝐞𝐭𝐬 𝐄𝐒𝐑𝐅 event is designed to explore how ESRF’s cutting-edge X-ray beamlines\, techniques and services can help the industrial community turn its challenges\, including in circular economy materials\, into innovative solutions. \n📅 16-17 June 2025\n📍EPN Campus\, Grenoble\, France \n🔸 Registration deadline: 𝟑𝟎 𝐌𝐚𝐲 𝟐𝟎𝟐𝟓\n🔗 More information and registration: https://www.esrf.fr/home/events/conferences/2025/industry-meets-esrf-2025.html# \nDon’t miss this great opportunity to 𝙘𝙤𝙣𝙣𝙚𝙘𝙩\, 𝚒𝚗𝚗𝚘𝚟𝚊𝚝𝚎\, and 𝖼𝗈𝗅𝗅𝖺𝖻𝗈𝗋𝖺𝗍𝖾! URL:https://remade-project.eu/index.php/event/industry-meets-esrf-x-rays-for-innovation/ LOCATION:Grenoble\, France CATEGORIES:Workshop ATTACH;FMTTYPE=image/png:https://remade-project.eu/wp-content/uploads/2025/04/visual-Industry-meets-ESRF-June-2025-square-.png END:VEVENT BEGIN:VEVENT DTSTART;TZID=Europe/Paris:20250619T080000 DTEND;TZID=Europe/Paris:20250620T170000 DTSTAMP:20260404T072523 CREATED:20250401T151442Z LAST-MODIFIED:20250410T112216Z UID:10000058-1750320000-1750438800@remade-project.eu SUMMARY:Laser Spectroscopy and Photonic Technologies for Circular Economy: Advancing Sustainable Innovations in Material Research and Diagnostics DESCRIPTION:The workshop “Laser Spectroscopy and Photonic Technologies for Circular Economy: Advancing Sustainable Innovations in Material Research and Diagnostics”\, is a dynamic event dedicated to exploring the transformative role of photonic technologies in fostering sustainability and innovation. \nThis workshop will primarily focus on laser spectroscopy\, imaging\, and sensing technologies\, exploring their critical role in material research\, diagnostics\, and sustainable innovation. Participants will gain insights into how these advanced photonic techniques enable precise material characterization\, real-time monitoring\, and efficient resource management—key drivers for circular economy solutions. Through expert talks\, hands-on sessions\, and interactive discussions\, the workshop will highlight the versatility and impact of these technologies across research and industry. \nThe program will also feature a poster session\, providing a platform for researchers and students to present their work\, exchange ideas\, and foster new collaborations. \nTwo hands-on sessions will offer participants practical experience in: \n\nHyperspectral Imaging – exploring its powerful capabilities in material analysis and diagnostics.\nLaser Spectroscopy – delving into its versatile applications in environmental monitoring\, quality control\, and material characterization.\n\nJoin us for this unique opportunity to engage with cutting-edge research\, gain practical skills\, and contribute to discussions on sustainable innovation through photonic technologies. We look forward to welcoming you to this exciting event! \nThe event is endorsed by Laserlab-Europe through EU’s Horizon Europe co-funded project Lasers4EU (GA No 101131771). URL:https://remade-project.eu/index.php/event/laser-spectroscopy-and-photonic-technologies-for-circular-economy-advancing-sustainable-innovations-in-material-research-and-diagnostics/ LOCATION:Heraklion\, Greece CATEGORIES:Workshop ATTACH;FMTTYPE=image/jpeg:https://remade-project.eu/wp-content/uploads/2025/04/250619-Laser-Photonics-workshop_draft4.jpg END:VEVENT BEGIN:VEVENT DTSTART;TZID=Europe/Paris:20250627T100000 DTEND;TZID=Europe/Paris:20250627T110000 DTSTAMP:20260404T072523 CREATED:20250514T084941Z LAST-MODIFIED:20250627T123513Z UID:10000062-1751018400-1751022000@remade-project.eu SUMMARY:Electrostatic potential of latex sphere using off-axis electron holography DESCRIPTION:Zoom webinar | Replay on Youtube\nYan Lu \, \nFZJ\, Germany \nElectrostatic potential\, including both that contributed by electron-beam-induced specimen charging and intrinsic material-related mean inner potential (MIP)\, is crucial because it is influence the reaction between charged particles\, chemical reactivity\, and dielectric properties. Off-axis electron holography is a powerful TEM technique that can be used to map local variations in electron optical phase shift\, which are in turn sensitive to electrostatic potentials and magnetic fields. In the absence of magnetic contributions to the phase shift\, the recorded phase is proportional to the projected electrostatic potential within and outside the specimen. Insulating nanoparticles with simple geometries are ideal objects for the study of specimen charging in the TEM. To demonstrate this technique and methodology for analyzing electrostatic potential\, two examples will be presented. \nPolystyrene latex beads were examined temperature-dependent behavior of the MIP and electron-beam-induced charge from room temperature down to 5.3 K. The diameter of latex spheres is in the range of 230 nm to 600 nm. By isolating the electrostatic potential contributed by the electron-beam-induced charge which was detected in vacuum surrounding the sphere\, the MIP was obtained at high precision\, revealing a significant increase of 16.8%±4.2% as temperature decreases. \nIn addition\, this talk will present the quantification of electron-beam-induced charge on MgO nanocubes reflecting the amount of oxygen vacancies on the surface\, which is essential for catalytical reaction. URL:https://remade-project.eu/index.php/event/electrostatic-potential-of-latex-sphere-using-off-axis-electron-holography/ CATEGORIES:Seminar ATTACH;FMTTYPE=image/jpeg:https://remade-project.eu/wp-content/uploads/2025/05/250627_ReMade@ARI-seminar_Lu.jpg END:VEVENT BEGIN:VEVENT DTSTART;TZID=Europe/Paris:20250718T100000 DTEND;TZID=Europe/Paris:20250718T110000 DTSTAMP:20260404T072523 CREATED:20250514T090248Z LAST-MODIFIED:20250718T093231Z UID:10000063-1752832800-1752836400@remade-project.eu SUMMARY:X-ray Diffraction at the service of circular economy: the advantages of synchrotron radiation DESCRIPTION:Zoom webinar | Replay on Youtube\nMarta Mirolo\, \nESRF\, France \nX-ray diffraction (XRD) is a well-known technique to investigate the atomic structure of crystalline materials. Compared to laboratory instruments\, X-rays generated in a synchrotron have the advantages of higher energy and higher photon flux\, allowing for fast measurement of thick or complex systems\, in situ and operando. From the improvement of battery materials to the understanding of recycling processes\, synchrotron XRD opens the door to advancements in the field of Circular Economy at both a fundamental and an applied level. URL:https://remade-project.eu/index.php/event/x-ray-diffraction-at-the-service-of-circular-economy-the-advantages-of-synchrotron-radiation/ CATEGORIES:Seminar ATTACH;FMTTYPE=image/jpeg:https://remade-project.eu/wp-content/uploads/2025/05/250718_ReMade@ARI-seminar_Mirolo.jpg END:VEVENT BEGIN:VEVENT DTSTART;TZID=Europe/Paris:20250829T100000 DTEND;TZID=Europe/Paris:20250829T110000 DTSTAMP:20260404T072523 CREATED:20250514T090757Z LAST-MODIFIED:20250829T150813Z UID:10000064-1756461600-1756465200@remade-project.eu SUMMARY:3D elemental mapping with nanometer-scale resolution using atom probe tomography (APT) DESCRIPTION:Zoom webinar | Replay on Youtube\nMasoud Dialameh\, \nIMEC\, Belgium \nAtom probe tomography (APT) is a powerful microscopy technique that uniquely combines three-dimensional mapping of atomic distributions with the elemental identification for both light and heavy elements\, achieving sub-nanometer spatial resolution [1]. This capability enables a variety of analysis modes for materials characterization\, including voxel-based 3D composition analysis with parts-per-million sensitivity [1]\, cluster identification and characterization of solute clusters\, precipitates\, and segregated regions down to ~1 nm radius size [2]\, nearest-neighbour distribution analysis\, and proximity histograms for interface characterization. \nThe physical principle of APT is based on controlled field evaporation\, whereby atoms are sequentially removed from a needle-shaped specimen and identified using a position-sensitive detector coupled with time-of-flight mass spectrometry. This enables atomic-scale information to be obtained from local nanometer-sized regions of a material\, in contrast to most X-ray–based techniques that provide ensemble-averaged measurements over many atoms. APT requires specimen preparation in form of needle-shaped tips with a radius below 50 nm which typically involves focused ion beam (FIB) milling. \nThis webinar will provide a brief introduction to the fundamentals of APT\, including field evaporation process\, specimen preparation\, data acquisition\, and 3D data reconstruction. Selected case studies on materials relevant to the circular economy and the semiconductor industry will be presented\, with a focus on highlighting both the potential and the limitations of APT for analysis various material systems. \n  \nReferences \n[1] Gault\, Baptiste\, et al. “Atom probe tomography.” Nature Reviews Methods Primers 1.1 (2021): 51. \n[2] De Geuser\, Frédéric\, and Baptiste Gault. “Metrology of small particles and solute clusters by atom probe tomography.” Acta Materialia 188 (2020): 406-415. URL:https://remade-project.eu/index.php/event/3d-elemental-mapping-with-nanometer-scale-resolution-using-atom-probe-tomography-apt/ CATEGORIES:Seminar ATTACH;FMTTYPE=image/jpeg:https://remade-project.eu/wp-content/uploads/2025/05/250829_ReMade@ARI-seminar_Dialameh.jpg END:VEVENT BEGIN:VEVENT DTSTART;VALUE=DATE:20250908 DTEND;VALUE=DATE:20250913 DTSTAMP:20260404T072523 CREATED:20250515T043056Z LAST-MODIFIED:20250606T081714Z UID:10000070-1757289600-1757721599@remade-project.eu SUMMARY:15th European Conference on Accelerators in Applied Research and Technology (ECAART 15) DESCRIPTION:We are happy to share a great news from one of our ReMade@ARI’s partner\, the Laboratory of Ion Beam Physics (LIP) of the ETH Zurich (ETHZ) in Switzerland. \nThe 15th European Conference on Accelerators in Applied Research and Technology (ECAART 15) organised by LIP and ETHZ will take place from September 8th to 12th\, 2025\, at the campus Hönggerberg\, Zurich\, Switzerland. \nThe conference is designed to explore the latest scientific and technological advancements in accelerator technology and its applications to various research topics. \n📅 08-12 September 2025\n📍 Campus Hönggerberg\, ETH Zurich\, Switzerland \n🔸 Abstract submission deadline: 15 June 2025 (extended)\n🔸 Early bid registration deadline: 1 August 2025\n🔗 More information and registration: https://ecaart15.ethz.ch/ \nDon’t miss this great opportunity to connect\, exchange and collaborate! URL:https://remade-project.eu/index.php/event/15th-european-conference-on-accelerators-in-applied-research-and-technology-ecaart-15/ LOCATION:Campus Hönggerberg\, ETH Zurich\, Switzerland CATEGORIES:Conference ATTACH;FMTTYPE=image/jpeg:https://remade-project.eu/wp-content/uploads/2025/05/ECAART-conference-Zurich-September-2025.jpg END:VEVENT BEGIN:VEVENT DTSTART;TZID=Europe/Paris:20250912T100000 DTEND;TZID=Europe/Paris:20250912T110000 DTSTAMP:20260404T072523 CREATED:20250514T091332Z LAST-MODIFIED:20250923T201944Z UID:10000065-1757671200-1757674800@remade-project.eu SUMMARY:Structure and dynamics in cellulose-based\, electrically conductive polymer films DESCRIPTION:Zoom webinar | Replay on Youtube\nLucas Kreuzer\, \nHeinz Maier-Leibnitz Zentrum (MLZ\, FRM II) Technical University of Munich\, Germany \nPEDOT:PSS is a water-dispersable and electrically conductive polymer blend that is increasingly applied in numerous fields such as batteries and super-capacitors. While\nmany studies focus on performance optimization\, degradation issues because of humid environments are rarely discussed: PEDOT:PSS absorbs significant amounts of water\n(~50 wt%)\, which leads to a pronounced swelling factor of up to 1.6. \nThe integration of PEDOT:PSS into a cellulose nanofibril (CNF) matrix enhances significantly the mechanical integrity and prevents film swelling\, whereas a certain water\namount is still absorbed into the PEDOT:PSS/CNF films (~24 wt%). By studying the water dynamics under varying ambient relative humidity (RH) conditions\, we identified\ntwo water species inside the films: fast-moving bulk water and slow-moving hydration water. Under dry conditions\, bulk water is completely released from the films\, while\nsome of the hydration water remains within them. In humid environments\, both water species are present. \nThe altered water content inside the PEDOT:PSS/CNF films in dependence of RH\, leads to changing water-cellulose interactions\, structural re-arrangements\, and tunable\nelectrical conductivity. Under dry conditions\, only some hydration water is present in the films and PEDOT:PSS – CNF interactions become more dominant. As a consequence\,\nPEDOT:PSS wets on the CNF\, thereby leading to an increased conductivity. Under high RH conditions this is reversed: the high water content inside the films promotes de-\nwetting of PEDOT:PSS and the electrical conductivity decreases. \nWater – polymer interactions have been studied using quasi-elastic neutron scattering (QENS)\, while the film nano-morphology of the PEDOT:PSS/CNF films was investigated\nwith grazing-incidence small angle neutron scattering (GISANS) and time-of-flight neutron reflectivity (ToF-NR). URL:https://remade-project.eu/index.php/event/structure-and-dynamics-in-cellulose-based-electrically-conductive-polymer-films/ CATEGORIES:Seminar ATTACH;FMTTYPE=image/jpeg:https://remade-project.eu/wp-content/uploads/2025/05/250912_ReMade@ARI-seminar_Kreuzer.jpg END:VEVENT BEGIN:VEVENT DTSTART;TZID=Europe/Paris:20250922T080000 DTEND;TZID=Europe/Paris:20250924T170000 DTSTAMP:20260404T072523 CREATED:20250514T101044Z LAST-MODIFIED:20250908T091626Z UID:10000056-1758528000-1758733200@remade-project.eu SUMMARY:Multi-probe Imaging For Materials DESCRIPTION:We are pleased to announce a workshop on “Multi-probe Imaging for Materials” at the European Synchrotron research facility (ESRF)\, Grenoble\, sponsored by the ReMade@ARI EU project with the participation of dragonfly. The workshop will be on September 22-24\, includes 2 days of lectures\, visit to imaging beamlines\, and one day of hands-on training on image processing using Dragonfly software and digital volume correlation using SPAM. \nThis workshop covers different imaging modalities using synchrotron X-rays\, electron beam\, neutrons and ions. It will be suitable for researchers at all levels interested to know about these techniques\, or become a future users of ESRF\, ILL and Remade facilities. During the workshop the participants can share their research through a talk or a poster\, and discuss possible use of ESRF/ILL/Remade facilities for their research. \n🔸 This workshop is intended for researchers at all levels\, working on materials sciences with topics not limited to the following: \n\n 3D printing\n Additive manufacturing\n Metal recycling\n Building materials\n Bio-materials\n Geo-materials\n Energy materials (batteries\, solar panels\, catalyst)\n\n⏳ Abstract submission deadline: 5th of September 2025\n⏳Registration deadline (extended): 10th of September 2025\n⏳ Website: https://indico.esrf.fr/event/186/ \nFor more information and registration please refer the workshop page. \nShould you have any further questions feel free to contact us. We look forward to seeing you in Grenoble! URL:https://remade-project.eu/index.php/event/multi-probe-imaging-for-materials/ LOCATION:EPN science campus\, 71 avenue des martyrs\, Grenoble\, 38000\, France CATEGORIES:Workshop ATTACH;FMTTYPE=image/jpeg:https://remade-project.eu/wp-content/uploads/2025/05/250922-Imaging-workshop-Grenoble_v27082025-v2_resized.jpg END:VEVENT BEGIN:VEVENT DTSTART;TZID=Europe/Paris:20251031T100000 DTEND;TZID=Europe/Paris:20251031T110000 DTSTAMP:20260404T072523 CREATED:20250514T092058Z LAST-MODIFIED:20251027T144402Z UID:10000066-1761904800-1761908400@remade-project.eu SUMMARY:SANS study of water sorption and desorption of hygroscopic salt-embedded porous gelatin substrate in a humidity-controlled environment DESCRIPTION:Zoom webinar | Replay on Youtube (soon)\nYi Zhang\,\nISIS\, UK \nBiopolymer composites are actively researched as alternatives to synthetic polymer materials owing to their potential advantages in alleviating environment impacts\, biodegradability\, and cost-effectiveness. The water sorption and desorption behaviours of these materials are of interest in a wide range of research topics\, including water retention in biomedical applications and atmospheric water harvesting. Gelatin is an abundant biopolymer in animal resources and is known to be hygroscopic. However\, it is not suitable for water harvesting applications in its native forms due to its slow response to changes in humidity in the surrounding. In this work\, we introduced pores and embedded hygroscopic salts in the gelatin substrates\, and tested their behaviours at various humidity levels\, as a model system to study water sorption and desorption in hygroscopic biopolymer composite-based water harvesting devices. SANS was applied in situ to reveal variations in the locations of water through changes in the structures and contrasts at the interfaces and within the gel network. The results help us better understand sorption and desorption events in such composites and would hopefully support more rational design of water harvesting devices with capillary-gel matrices in the future. URL:https://remade-project.eu/index.php/event/neutrons-for-sustainable-materials/ CATEGORIES:Seminar ATTACH;FMTTYPE=image/jpeg:https://remade-project.eu/wp-content/uploads/2025/05/251031_ReMade@ARI-seminar_Zhang_bis.jpg END:VEVENT BEGIN:VEVENT DTSTART;TZID=Europe/Paris:20251128T110000 DTEND;TZID=Europe/Paris:20251128T120000 DTSTAMP:20260404T072523 CREATED:20250514T100203Z LAST-MODIFIED:20251104T085318Z UID:10000069-1764327600-1764331200@remade-project.eu SUMMARY:Phyto-mining to recover critical raw materials from mining wastes DESCRIPTION:Zoom webinar | Replay on Youtube (soon)\nValeria Indelicato\, \nInstituto Universitario di Studi Superiori of Pavia\, University of Catania\, Italy \nIndelicato Valeria1\,2\,3\, Punturo Rosalda2\,3\, Nogues Isabel4\, Guglietta Daniela3\, Passatore Laura4\, Maldonado Gavilan\nNoelia5\, Victor Piñon6\, Lorenzo Massimi7\,8\n1 Department of Science\, Technology and Society\, University School for Advanced Studies IUSS Pavia\, Pavia\,\nItaly\n2 Department of Biological\, Geological and Environmental Sciences\, University of Catania\, Catania\, Italy\n3 Institute of Environmental Geology and Geoengineering (IGAG-CNR)\, Rome\, Italy\n4 Research Institute on Terrestrial Ecosystems\, National Research Council (IRET-CNR)\, Rome\, Italy\n5 Centre for Micro Analysis of Materials (CMAM)\, Universidad Autónoma de Madrid (UAM)\, Madrid\, Spain\n6 Institute of Electronic Structure and Laser (IESL)\, Foundation for Research and Technology-Hellas\, Heraklion\,\nCrete\, Greece\n7 Department of Environmental Biology\, Sapienza University of Rome\, Rome\, Italy\n8 Institute of Atmospheric Pollution Research (IIA-CNR)\, Monterotondo St.\, Rome\, Italy \nThe recovery of critical and strategic raw materials (CRMs) from mining waste is a key challenge for the European Union’s transition toward a circular and sustainable economy. Among the possible solutions\, phyto-mining\, the use of plants to extract and concentrate metals from soils and waste materials\, offers an environmentally friendly alternative to conventional mining.\nIn this study\, serpentinite quarry wastes from the Sila Piccola Massif (southern Italy) were collected and analysed through optical microscopy\, SEM-EDS\, and XRF within the framework of the ReMade@ARI–RECAMP project (Recovery of Critical rAw Materials from Mining wastes through Plants; PID27426). Serpentinite\, which is the main lithotype in the area\, proved to contain significant amounts of Ni\, Co\, Cr\, Mn\, and Mg elements that are of economic and/or strategic importance for the EU. \nExperiments were carried out using Helianthus annuus (sunflower) grown on a control pot substrate and on serpentinite waste material (alone or amended by a mycorrhizae fertilizer) to evaluate the plant’s capacity to uptake and concentrate metals from these substrates. After three months\, plant tissues and soil samples were analysed using LIBS\, PIXE\, and ICP to compare detection efficiency and accuracy among techniques.\nThe combined use of these analytical methods highlights their complementarity: LIBS effectively detects major elements (e.g.\, Mg\, Ca) but may underestimate trace metals such as Ni and Co due to spectral interference from Fe; PIXE provides greater sensitivity for light and transition elements which present larger effective cross sections for this technique; while ICP served as the reference method to obtain total elemental concentrations and validate the results from the non-destructive techniques.\nPreliminary ICP data indicate that sunflower plants accumulate measurable concentrations of Ni\, Co\, and Mg\, but the overall phytoextraction efficiency is limited by the low bioavailability of these metals in serpentinite wastes\, mainly due to their mineralogical bonding and alkaline conditions. \nOverall\, integrating phyto-mining experiments with multi-analytical techniques improves our understanding of plant–metal interactions and supports the sustainable valorisation of serpentinite wastes as a secondary source of critical and strategic raw materials. URL:https://remade-project.eu/index.php/event/phyto-mining-to-recover-critical-raw-materials-from-mining-wastes/ CATEGORIES:Seminar ATTACH;FMTTYPE=image/jpeg:https://remade-project.eu/wp-content/uploads/2025/05/251128_ReMade@ARI-seminar_Indelicato_bis.jpg END:VEVENT BEGIN:VEVENT DTSTART;VALUE=DATE:20260222 DTEND;VALUE=DATE:20260330 DTSTAMP:20260404T072523 CREATED:20250922T143200Z LAST-MODIFIED:20250922T143200Z UID:10000071-1771718400-1774828799@remade-project.eu SUMMARY:HERCULES European School 2026: Neutrons and synchrotron radiation for science DESCRIPTION:HERCULES EUROPEAN SCHOOL is a five weeks course coordinated by the Université Grenoble Alpes (UGA). The school provides training for students\, postdoctoral and senior scientists from European and non-European universities and laboratories\, in the field of Neutrons\, X-ray Synchrotron Radiation\, and Free Electron Laser for condensed matter studies (Biology\, Chemistry\, Physics\, Materials Science\, Geosciences\, Industrial applications). Neutron and X-ray science is integrated with complementary techniques like (but not only) optical and electron microscopy\, NMR\, optical spectroscopy. \nThe school includes lectures\, practicals\, tutorials\, and visits of large-scale facilities.\nA poster session is organised\, where each participant puts up a poster presenting her/his thesis or research topic for a half-day. \nThe partner Large Scale Facilities for HERCULES 2026 will be: ALBA (Spain)\, KIT (Germany)\, MAX IV / ESS / LINXS (Sweden)\, and SOLEIL (France). \nThe language of the course is English. \nSee the general programme for more information. \n⭐️Join the 2026 HERCULES European School! Advance Your Knowledge in Neutron and Synchrotron Radiation for Science!\n📆 Dates: 22nd February 2026 to 29th March 2026\n📍 Location: in and outside of Grenoble\, France\n⏳Applications to the 2026 HERCULES school are welcomed until October 1st\, 2025! URL:https://remade-project.eu/index.php/event/hercules-european-school-2026-neutrons-and-synchrotron-radiation-for-science/ LOCATION:in Grenoble (France) and other cities in Europe CATEGORIES:School ATTACH;FMTTYPE=image/jpeg:https://remade-project.eu/wp-content/uploads/2025/09/flyer-HERCULES-2026.jpg END:VEVENT BEGIN:VEVENT DTSTART;TZID=Europe/Paris:20260313T100000 DTEND;TZID=Europe/Paris:20260313T110000 DTSTAMP:20260404T072523 CREATED:20260302T184856Z LAST-MODIFIED:20260313T175130Z UID:10000072-1773396000-1773399600@remade-project.eu SUMMARY:Operando adsorption of heavy metals and their recycling into electrodes for energy storage DESCRIPTION:Zoom webinar | Replay on Youtube\nMarcelo AMARO DE ANDRADE\, \nInstitut des Matériaux Jean Rouxel de Nantes\, France \nTreating wastewater contaminated with heavy metals often relies on passive adsorption using high-surface area materials\, but once these adsorbents are saturated\, they become hazardous waste themselves. In this work\, Hg2+ cations uptake by reduced graphene oxide (rGO) was tracked under continuous-flow conditions\, using operando techniques to get a realistic picture of the adsorption process. A microfluidic platform was combined with Hg L3-edge synchrotron X-ray absorption spectroscopy (XAS) to monitor\, in real time\, how mercury coordinates and loads onto rGO during adsorption. At the same time\, an electrochemical quartz-crystal microbalance (EQCM) was used to independently follow changes in mass and viscoelastic properties of the rGO layer under model wastewater flow. This approach allowed to distinguish between strongly bound (chemisorbed) and more weakly coordinated (physisorbed) mercury species\, and to observe how these forms changed dynamically as adsorption progressed. 1 \nOn top of that\, the metals captured in these materials can also be used as redox-active components for further applications. Our group previously showed how rGO foams used to capture Hg2+ cations from model wastewater (rGO/Hgads) can be directly recycled into self-standing electrodes without extra chemical or thermal steps. In H2SO4\, these electrodes combine double-layer capacitance with redox-based faradaic reactions\, resulting in about 33% higher gravimetric capacity compared to pristine rGO (Figure 1 – left). 2 \nTo understand the charge-storage mechanism\, operando synchrotron Hg L3-edge XAS was used\, in addition to operando EQCM. Time-resolved XANES revealed two main mercury states: oxidized Hg(II) and a reduced state most consistent with Hg(I). Their concentration profiles show reversible cycling between Hg(II) and Hg(I)\, which corresponds to the electrochemical features observed in cyclic voltammetry. Hg(II) is consumed at the reduction peak around 0.60 V\, and regenerated at the oxidation peak near 0.64 V\, starting as early as 0.45 V (Figure 1 – right). This suggests that redox changes are not limited by simple thermodynamics\, and the capacity gain comes indeed from the adsorbed cations. L₃-edge jump analysis shows that the total mercury content changes with potential\, showing considerable mercury movement in and around the electrode during cycling\, which was correlated to EQCM-D measures. Overall\, this ReMade project allowed to understand both the heavy-metal capture mechanism\, and their later contribution to the electrochemistry by redox changes\, helping to advance new ways of combining environmental remediation with energy storage materials. \nReferences: \n\nAndrade\, M. A.\, Bugaev\, A. L.\, Skorynina\, A. & Douard\, C. Tracking Hg2+ adsorption by reduced graphene oxide in continuous flow by in situ techniques. J. Environ. Chem. Eng. 13\, 118680 (2025).\n\n2. Andrade\, M.\, Crosnier\, O.\, Johansson\, P. & Brousse\, T. Energy from Garbage: Recycling Heavy Metal‐Containing Wastewater Adsorbents for Energy Storage. Adv. Energy Sustain. Res. 6\, (2024). URL:https://remade-project.eu/index.php/event/operando-adsorption-of-heavy-metals-and-their-recycling-into-electrodes-for-energy-storage/ CATEGORIES:Seminar ATTACH;FMTTYPE=image/jpeg:https://remade-project.eu/wp-content/uploads/2026/03/260313_ReMade@ARI-seminar_AMARO-DE-ANDRADE.jpg END:VEVENT BEGIN:VEVENT DTSTART;TZID=Europe/Paris:20260327T100000 DTEND;TZID=Europe/Paris:20260327T110000 DTSTAMP:20260404T072523 CREATED:20260313T081247Z LAST-MODIFIED:20260330T115331Z UID:10000073-1774605600-1774609200@remade-project.eu SUMMARY:Mechanisms of Pd nanoparticle formation and strong metal-support interaction in Pd/TiO2 revealed by operando XAS DESCRIPTION:Zoom webinar | Replay on Youtube\nElizaveta KOZYR\, \nE. Kozyr1\, P. Paciok2\, R. Pellegrini3\, M. Chiesa1\, Elena Groppo1\, L. Mino1\, A. Bugaev4 \n1University of Turin\, Italy; 2Forschungszentrum Jülich GmbH\, Germany; 3ALBAChimet S.p.A\, Italy;\n4Paul Scherrer Institute\, Switzerland; elizaveta.kozyr@unito.it \nUnderstanding the formation of active phases and metal-support interactions is essential for the rational design of efficient photocatalysts. In this work\, Pd/TiO2 catalysts prepared by photodeposition and deposition-precipitation were investigated using a combination of operando synchrotron-based X-ray absorption spectroscopy (XAS) and complementary microscopic and spectroscopic techniques. A custom operando photocatalytic cell enabled in situ monitoring of the Pd photodeposition process\, revealing the formation of single-atom Pd(0) sites as an initial step followed by the growth of ~1 nm Pd nanoparticles with narrow size distribution. Photodeposited catalysts exhibit strong metal-support interaction (SMSI)\, associated with the presence of Ti³⁺ sites at the Pd/TiO2 interface and direct Pd-Ti interactions observed by XAS\, EPR\, and EELS. These features lead to enhanced stabilization of metallic Pd even under oxidizing conditions\, in contrast to catalysts prepared by deposition-precipitation. The results highlight how synthesis pathways govern nanoparticle formation mechanisms and metal-support interactions in Pd/TiO2 photocatalysts. \nAcknowledgements \nWe thank ReMade@ARIE funded by the European Union as part of the Horizon Europe call HORIZON-INFRA-2021-SERV-01 under grant agreement number 101058414 and co-funded by the Swiss State Secretariat for Education\, Research and Innovation (SERI) under contract number 22.00187 for the access to the HR-STEM measurements (ERC\, Julich\, Germany) and XAS measurements at SuperXAS beamline of Swiss Light Source. URL:https://remade-project.eu/index.php/event/mechanisms-of-pd-nanoparticle-formation-and-strong-metal-support-interaction-in-pd-tio2-revealed-by-operando-xas/ CATEGORIES:Seminar ATTACH;FMTTYPE=image/jpeg:https://remade-project.eu/wp-content/uploads/2026/03/260327_ReMade@ARI-seminar_KOZYR.jpg END:VEVENT BEGIN:VEVENT DTSTART;TZID=Europe/Paris:20260424T100000 DTEND;TZID=Europe/Paris:20260424T110000 DTSTAMP:20260404T072523 CREATED:20260313T081801Z LAST-MODIFIED:20260313T082013Z UID:10000074-1777024800-1777028400@remade-project.eu SUMMARY:Designing better Metal-Organic Framework catalysts for CO2 conversion: what characterization teaches us DESCRIPTION:Zoom webinar | Replay on Youtube (soon)\nAnna LIUTKOVA \nPSI (Switzerland) \nMetal-organic frameworks are increasingly explored as materials that can both interact with CO2 and host catalytic sites for its conversion into useful chemicals. This talk discusses how advanced characterization techniques help reveal how these materials behave under reaction conditions. Using Cu and Zn modified UiO-66 catalysts for CO2-to-methanol conversion as an example\, it illustrates how in situ X-ray methods and microscopy guide the design of better catalytic materials. URL:https://remade-project.eu/index.php/event/designing-better-metal-organic-framework-catalysts-for-co2-conversion-what-characterization-teaches-us/ CATEGORIES:Seminar ATTACH;FMTTYPE=image/jpeg:https://remade-project.eu/wp-content/uploads/2026/03/260424_ReMade@ARI-seminar_LIUTKOVA.jpg END:VEVENT BEGIN:VEVENT DTSTART;TZID=Europe/Paris:20260515T100000 DTEND;TZID=Europe/Paris:20260515T110000 DTSTAMP:20260404T072523 CREATED:20250514T092613Z LAST-MODIFIED:20260313T082639Z UID:10000067-1778839200-1778842800@remade-project.eu SUMMARY:Synergies between Molecular Spectroscopy and Computational Chemistry and their role in the Characterization and Design of Sustainable Materials DESCRIPTION:Zoom webinar | Replay on Youtube (soon)\nLicinia L. G. Justino\, \nUniversity of Coimbra\, Portugal \nAbstract TBC. URL:https://remade-project.eu/index.php/event/synergies-between-molecular-spectroscopy-and-computational-chemistry-and-their-role-in-the-characterization-and-design-of-sustainable-materials/ CATEGORIES:Seminar ATTACH;FMTTYPE=image/jpeg:https://remade-project.eu/wp-content/uploads/2025/05/260515_ReMade@ARI-seminar_JUSTINO.jpg END:VEVENT BEGIN:VEVENT DTSTART;TZID=Europe/Paris:20261023T100000 DTEND;TZID=Europe/Paris:20261023T110000 DTSTAMP:20260404T072523 CREATED:20260313T082957Z LAST-MODIFIED:20260313T084320Z UID:10000075-1792749600-1792753200@remade-project.eu SUMMARY:Scalable and longer-lasting bulk metals for public health and infrastructure DESCRIPTION:Zoom webinar | Replay on Youtube (soon)\nLiliana ROMERO RESENDIZ \nBournemounth University\, UK \nImagine a structural metal that is simultaneously stronger and more ductile (flexible) than conventional options – and can even kill bacteria on contact. This is now possible through heterostructured materials\, which combine soft and hard regions within the same metal to create internal mechanical interactions that enhance overall performance. \nThis talk introduces the design principles of these architectures and explains why they outperform traditional alloys across multiple metrics. Using results from the ReMade@ARI initiative\, I will show how cryogenic deformation triggers a cascade of crystal defect mechanisms that progressively sustain work hardening. \nBeyond mechanical superiority\, heterostructuring can embed antimicrobial functionality into bulk metals without sacrificing durability. These findings open pathways toward scalable\, multifunctional materials for demanding applications: from safer medical devices and water infrastructure to resilient energy systems and cryogenic transport. URL:https://remade-project.eu/index.php/event/scalable-and-longer-lasting-bulk-metals-for-public-health-and-infrastructure/ CATEGORIES:Seminar ATTACH;FMTTYPE=image/jpeg:https://remade-project.eu/wp-content/uploads/2026/03/261023_ReMade@ARI-seminar_Romero-Resendiz.jpg END:VEVENT BEGIN:VEVENT DTSTART;TZID=Europe/Paris:20261127T100000 DTEND;TZID=Europe/Paris:20261127T110000 DTSTAMP:20260404T072523 CREATED:20260313T084204Z LAST-MODIFIED:20260313T084353Z UID:10000076-1795773600-1795777200@remade-project.eu SUMMARY:In situ characterization of food and plastic waste carbonized under pressure DESCRIPTION:Zoom webinar | Replay on Youtube (soon)\nFrancesco D’ACIERNO \nKU Leuven\, Belgium \n  \nIn situ investigations of soft-matter carbonization are essential to connect processing conditions with final carbon structure and function. Here we report time-resolved structural and chemical monitoring of autogenic pressure carbonization of non-recyclable commodity plastics performed directly inside sealed quartz capillaries. We also treated food waste-derived sugars through alkaline and neutral hydrothermal carbonization in water and ionic liquids. By combining synchrotron-grade WAXS and SAXS with in-situ Raman spectroscopy\, and supporting ex-situ XPS surface analysis\, we follow the transformation from disordered organic networks to carbonaceous solids under self-generated pressure in real time.\n\nSAXS reveals the emergence and coarsening of nanoscale porosity and density inhomogeneities early in the heating profile\, while WAXS captures the progressive development of short-range aromatic stacking (broadening and gradual appearance of 002-type scattering). Raman spectra recorded concurrently track the evolution of sp2 domains and defect populations via the D and G bands\, allowing kinetic comparison between plastic and sugar routes. Ex-situ XPS indicates contrasting heteroatom retention: hydrothermal-derived chars retain higher oxygen functionality\, whereas plastic-derived carbons show lower O/C ratios and more pronounced graphitization signatures at equivalent processing stages.\n\nTogether the multimodal dataset supports a unifying mechanism in which precursor chemistry controls the balance between intramolecular rearrangement and intermolecular crosslinking\, setting the pathway for pore formation and aromatic ordering under pressure. URL:https://remade-project.eu/index.php/event/in-situ-characterization-of-food-and-plastic-waste-carbonized-under-pressure/ CATEGORIES:Seminar ATTACH;FMTTYPE=image/jpeg:https://remade-project.eu/wp-content/uploads/2026/03/261127_ReMade@ARI-seminar_DACIERNO.jpg END:VEVENT END:VCALENDAR