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DTSTART;TZID=Europe/Paris:20230901T140000
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DTSTAMP:20260404T035622
CREATED:20230314T191657Z
LAST-MODIFIED:20230824T085011Z
UID:10000019-1693576800-1693580400@remade-project.eu
SUMMARY:Non-destructive material analysis using positron annihilation spectroscopy (PALS) - an overview
DESCRIPTION:Zoom webinar | Live stream on Youtube\nEric HIRSCHMANN\nInstitute of Radiation Physics\nHelmholtz-Zentrum Dresden – Rossendorf (HZDR) \nThe positron research infrastructure (pELBE) at the ELBE linear accelerator at the HZDR is a collection of methods and instruments that characterize defects\, determine open volumes and investigate open or closed microporous systems using positron annihilation spectroscopy. It is used for studying a variety of phenomena and material properties on an atomic scale. \nFor example\, performance parameters in solar cells by characterization of the defect concentration\, optimization of process parameters for thin polymer membranes regarding free volume effects or determination of pore size distribution in nano filters for high-performance applications.\nBeing the anti-particle of electrons\, positrons are used to probe material defects at low concentrations and with high sensitivity. With the advantage of being a non-destructive materials research method\, positron annihilation has been developed as a well-established tool for investigations of metals\, semiconductors\, polymers and porous materials. \n  \n 
URL:https://remade-project.eu/index.php/event/webinar6/
LOCATION:Zoom (permanent link)
CATEGORIES:Seminar
ATTACH;FMTTYPE=image/jpeg:https://remade-project.eu/wp-content/uploads/2023/08/230901_ReMade@ARI-Seminar_Hirschmann5.jpg
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BEGIN:VEVENT
DTSTART;TZID=Europe/Paris:20230903T080000
DTEND;TZID=Europe/Paris:20230906T170000
DTSTAMP:20260404T035622
CREATED:20230621T153954Z
LAST-MODIFIED:20230621T154019Z
UID:10000030-1693728000-1694019600@remade-project.eu
SUMMARY:6th EuChemS Conference on Green and Sustainable Chemistry
DESCRIPTION:The 6th EuGSC is organized by the Italian Chemical Society (SCI) and EuChemS/Division of Green and Sustainable Chemistry\, and is endorsed by the Department of Chemistry and Biology “Adolfo Zambelli” of University of Salerno. \nThis is the sixth of a series of EuCheMS successful conferences on Green and Sustainable Chemistry that started eight years ago in Budapest (2013)\, followed by the conferences in Lisbon (2015)\, York (2017) and Tarragona (2019) and the last one organized virtually in Thessaloniki (2021). \nThe EuGSC conferences offer the opportunity to discuss the latest developments in green & sustainable chemistry\, to expand existing and establish new relations among academia and industry\, and to disseminate the philosophy and principles of sustainable development and circular (bio)economy.\nThe topics of the 6th EuGSC will cover the broader field of green chemistry and technology with more emphasis on sustainable catalytic and synthetic processes\, biomass and CO2 utilization\, alternative fuels and green energy\, benign low-energy chemical processes\, pollution prevention and remediation\, green chemistry metrics and environmental assessment\, sustainable industrial processes\, waste recycle and valorization\, and circular (bio)economy.
URL:https://remade-project.eu/index.php/event/6eugsc/
LOCATION:Salerno Town Hall “Salone dei Marmi”
CATEGORIES:Conference
ATTACH;FMTTYPE=image/jpeg:https://remade-project.eu/wp-content/uploads/2023/06/6eugsc.jpg
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/Paris:20230929T083000
DTEND;TZID=Europe/Paris:20230929T130000
DTSTAMP:20260404T035622
CREATED:20230918T120516Z
LAST-MODIFIED:20230918T120517Z
UID:10000032-1695976200-1695992400@remade-project.eu
SUMMARY:Using Research infrastructures to solve industrial challenges for the circular materials economy
DESCRIPTION:The transition to a circular economy requires companies to adopt sustainable and resource-efficient industrial practices. By shifting from the traditional linear “take-make-dispose” model to a circular one that promotes recycling\, reusing\, and remanufacturing\, industries can reduce waste\, conserve resources\, and minimize environmental impact.  \nAs part of our European project\, that brings together research infrastructures and service providers\, a new significant initiative will further assist in this transition. \nOn Friday 29 september\, in Copenhagen’s the Industry House\, we’ll host a dedicated workshop to : \n\nlay out successful cases\, \nshowcase new industry engagement models and \nhost discussion groups \n\n… aiming to reflect about how industry should most efficiently take advantage of the advanced analytical techniques available at Research Infrastructures in Europe. \n  \nIf you are a decision maker in any of the #plastic #packaging #construction #textile #vechicles #batteries #food #elettronics #pharma (plastic free products) areas\, you should sign up to this unique in-person workshop that aim to support\, via focused round table discussions between Industry stakeholders and EU facilities representatives\, the match making between market needs and RIs offer.  \n\nRegistration compulsory at https://events.hifis.net/event/930/timetable/\nDeadline: 20th of September 2023\nNumber of participants: limited to ensure good quality discussions\nVenue: Industriens Hus H. C. Andersens Blvd. 18\, 1553 København\, Denmark\nFees: Free of charges\nSponsor: LINX Association
URL:https://remade-project.eu/index.php/event/using-research-infrastructures-to-solve-industrial-challenges-for-the-circular-materials-economy/
LOCATION:Industriens Hus H. C. Andersens Blvd. 18\, 1553 København\, Denmark\, Andersens Blvd. 18\,\, 1553 København\, Denmark
CATEGORIES:Workshop
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/Paris:20230929T140000
DTEND;TZID=Europe/Paris:20230929T150000
DTSTAMP:20260404T035622
CREATED:20230919T125130Z
LAST-MODIFIED:20230919T125131Z
UID:10000020-1695996000-1695999600@remade-project.eu
SUMMARY:Neutron techniques for in-situ/operando studies of batteries and gas turbine components
DESCRIPTION:Zoom webinar\nBy Ralph Gilles\, \nTechnical Univeristy of Munich\, Germany \nRechargeable batteries play an important role in the Green Deal activities. Using sophisticated methods\, a deeper understanding of the processes in electrochemistry is gained in order to further improve battery components and complete cells. In particular\, non-destructive studies examining Li-ion batteries in situ/operando represent a challenge that allows obtaining much more details about the charging/discharging and aging processes. \nDue to the high penetration depth and high sensitivity of neutrons to light elements such as lithium\, such a probe has become increasingly attractive in the last decade. With neutron diffraction\, the changes in a commercial 18650-type NMC (LiNi1/3Mn1/3Co1/3O2)/graphite round cell can be easily followed. For a better understanding of the charging/discharging process of the cell\, the different phases of graphite intercalation can be determined\, starting from pure graphite to LiCx phases [1]. Neutron radiography or neutron tomography were used to directly visualize electrodes\, complete cells or the electrolyte filling process in order to be able to observe spatial inhomogeneities (<100 mm) in battery cells [2]. Furthermore\, near-surface Li distributions are measured with a depth resolution of around 10 nm using the neutron depth profiling technique [3]. Contamination of elements on electrodes is detected with prompt gamma activation analysis using neutrons [4]. \nIn the field of energy conversion\, neutron scattering is a powerful tool for studying high-temperature alloys such as the well-known Ni-based superalloys or new types of alloys that go beyond this. Such alloys are used for stationary gas turbines and engines. The main goal is to increase the operating temperature\, resulting in higher efficiency and lower CO2 pollution. These alloys are measured using in-situ experiments at high temperatures [5-7] and/or under tension [8] or compression [9]\, analyzing the behavior of the hardening phases under such condition in order to further optimize the alloys. Typical parameters such as size distribution\, morphology\, volume fraction\, precipitation resolution and phase formation are determined in real bulk samples using neutron diffraction and small-angle neutron scattering. \n  \nReferences: \n[1] V. Zinth\, von Lüders\, M. Hofmann\, J. Hattendorff\, I. Buchberger\, S. Erhard\, J. Rebelo Kornmeier\, A. Jossen\, R. Gilles\, J. Power Sources (2014)\, 271\, 152. \n[2] T. Knoche\, \, V. Zinth\, M. Schulz\, J. Schnell\, R. Gilles\, G. Reinhart\, Journal of Power Sources 2016\, 331\, 267. \n[3] M. Wetjen\, M. Trunk\, L. Werner\, R. Gernhäuser\, B. Märkisch\, R. Gilles\, H.A. Gasteiger\, J. Electrochem. Soc (2018)\, 165(10)\, A2340. \n[4] I. Buchberger\, S. Seidlmayer\, A. Pokharel\, M. Piana\, J. Hattendorff\, P. Kudejova\, R. Gilles\, H. A. Gasteiger\, Journal of Electrochemical Society (2015)\, 162 (14) A2737. \n[5] C.Solís\, J. Munke\, M. Hofmann\, S. Mühlbauer\, M. Bergner\, B. Gehrmann\, J. Rösler\, R. Gilles\, Metall.&Mater. Trans. A\, (2018)\, 49\, 4373. \n[6] R. Gilles\, D. Mukherji\, L. Karge\, P. Strunz\, P. Beran\, B. Barbier\, A. Kriele\, M. Hofmann\, H. Eckerlebe\, J. Rösler\, J. Appl. Cryst. (2016)\, 49\, 1253. \n[7] C. Solis\, A. Kirchmayer\, I. da Silva\, F. Kümmel\, S. Mühlbauer\, P. Beran\, B. Gehrmann\, M. Hafez\, S. Neumeier\, R. Gilles\, J. Alloys Compd (2022)\, 928\, 167203. \n[8] R. Gilles\, Journal of surface investigation X-ray synchrotron and neutron techniques (2020) \n14\, S69. \n[9] F. Kümmel\, F. Kümmel\, A. Kirchmayer\, C. Solis\, M. Hofmann\, S. Neumeier\, R. Gilles\, Metals (2021)\, 11\, 719.
URL:https://remade-project.eu/index.php/event/webinar7-2/
LOCATION:Zoom (permanent link)
CATEGORIES:Seminar
ATTACH;FMTTYPE=image/jpeg:https://remade-project.eu/wp-content/uploads/2023/03/230929_ReMade@ARI-Seminar_Gilles-6.jpg
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