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X-WR-CALDESC:Events for Laserlab-Europe AISBL
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DTSTART;VALUE=DATE:20250305
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SUMMARY:3rd Candela Open Lectures: Bose-Einstein Condensates - Online
DESCRIPTION:Registration link (you can also join lectures selectively):\nhttps://eu01web.zoom.us/webinar/register/WN_Yp-w4G9NR2-DTsE1aUhdcQ
URL:https://laserlab-europe.eu/event/3rd-candela-open-lectures-bose-einstein-condensates-online/
CATEGORIES:conference calendar
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BEGIN:VEVENT
DTSTART;VALUE=DATE:20250331
DTEND;VALUE=DATE:20250404
DTSTAMP:20260526T170035
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SUMMARY:CCPBioSim/CCP5 Conference on Multiscale Modelling of Condensed Phase and Biological Systems
DESCRIPTION:
URL:https://laserlab-europe.eu/event/ccpbiosim-ccp5-conference-on-multiscale-modelling-of-condensed-phase-and-biological-systems/
LOCATION:Manchester\, Manchester\, United Kingdom
CATEGORIES:conference calendar
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DTSTART;VALUE=DATE:20250331
DTEND;VALUE=DATE:20250404
DTSTAMP:20260526T170035
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SUMMARY:37th Molecular Modelling Workshop
DESCRIPTION:
URL:https://laserlab-europe.eu/event/37th-molecular-modelling-workshop/
LOCATION:Erlangen\, Erlangen\, Germany
CATEGORIES:conference calendar
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DTSTART;VALUE=DATE:20250331
DTEND;VALUE=DATE:20250406
DTSTAMP:20260526T170035
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UID:10000025-1743386400-1743818399@laserlab-europe.eu
SUMMARY:Chemical and materials machine learning school 2025
DESCRIPTION:This machine learning for materials training course is being run by the Physical Sciences Data Infrastructure (PSDI) initiative in collaboration with AIchemy\, with support from STFC-SCD\, PSDS\, CCP5 and CCP9 as a follow up to the very popular 2023 Machine learning for Atomistic Modelling Autumn School. This training is targeted towards PhD students\, in particular those in the Materials and Molecular Simulations field\, who have experience of coding but are not highly experienced with machine learning. The aim of this training is to introduce attendees to the latest methods of machine learning for the atomistic simulation of materials. \nThis training will encompass a number of talks and practical sessions\, focusing on the basics of machine learning\, machine learning interatomic potentials and graph neural networks. There will also be the opportunity for attendees to present a poster on their work.
URL:https://laserlab-europe.eu/event/chemical-and-materials-machine-learning-school-2025/
LOCATION:Daresbury\, Daresbury\, United Kingdom
CATEGORIES:conference calendar
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DTSTART;VALUE=DATE:20250402
DTEND;VALUE=DATE:20250405
DTSTAMP:20260526T170035
CREATED:20250313T141922Z
LAST-MODIFIED:20250313T141922Z
UID:10000145-1743559200-1743731999@laserlab-europe.eu
SUMMARY:From Model to Mechanism in Heterogeneous Catalysis - Online Webinar
DESCRIPTION:
URL:https://laserlab-europe.eu/event/from-model-to-mechanism-in-heterogeneous-catalysis-online-webinar/
CATEGORIES:conference calendar
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BEGIN:VEVENT
DTSTART;TZID=Europe/Berlin:20250402T160000
DTEND;TZID=Europe/Berlin:20250402T170000
DTSTAMP:20260526T170035
CREATED:20250225T071925Z
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UID:10000118-1743609600-1743613200@laserlab-europe.eu
SUMMARY:Laserlab-Europe Talk: Boosting multiphoton 3D printing for biomedical engineering:  small features\, high impact
DESCRIPTION:Speaker: Irina Alexandra Paun (INFLPR)  \n			\n				\n				\n				\n				\n				The biomedical engineering sector is one of the most rapidly growing industrial areas\, bringing together engineering\, medicine and biology\, to develop novel technologies for medical treatment. Modern biomedical engineering advanced the concept of “reverse engineering”\, which means building micro- and nano-structures with functional biomimicry by extracting design parameters from biological systems\, such as from cell types and shapes\, and from the complex 3D architectures of extracellular matrix microenvironments. Cells seeded on these 3D micro/nano-structures attach\, interconnect\, proliferate\, and finally form masses of cells organized in 3D architectures closely resembling the natural tissue. These micro/nano-structures are currently used not only for fundamental mechanistic studies on the development\, regeneration\, and repair of damaged human tissues\, but also for diagnostics\, disease modeling\, drug delivery\, and personalized medicine. \nIn this talk\, I will present our recent results on the fusion between reverse engineering and laser processing\, within the scope of current challenges in medical treatments. Specifically\, I will show how we “boosted” a conventional 3D printing technique\, known as Laser Direct Writing via Two-Photon Polymerization (LDW via TPP)\, for biomedical engineering. LDW via TPP has been extensively used for fabricating structures with complex 3D architectures\, for biomedical use. It is known that LDW via TPP offers low operational costs\, rapid processing time\, high spatial resolution\, and full reproducibility of the obtained structures\, mandatory for systematic in vitro studies. In our work\, we targeted the development of innovative\, synergistic combinations of 3D micro/nano-structures fabricated by LDW via TPP and specific structure characteristics such as composition\, morphology\, and surface chemistry. This approach allowed us to obtain better control over attachment\, growth\, and\, in some cases\, differentiation of various cell types\, e.g. osteoblasts\, fibroblasts\, and glial cells. We further improved the effectiveness of the laser-printed structures by volumetric integration of electrically and magnetically responsive biomaterials into the “backbone” of the structures. The electrically or magnetically “active” 3D micro/nano-structures allowed us to accelerate certain processes involved in tissue regeneration by externally applied electric or magnetic stimuli. \nWe expect this approach to emerge in advanced biomedical applications such as tissue engineering\, wound dressings\, and advanced drug delivery systems\, with the final goal of refining patient-oriented treatments. \n			\n				\n				\n				\n				\n				This Laserlab-Europe Talk is coorganised by Laserlab-Europe\, Lasers4EU and 360Carla.
URL:https://laserlab-europe.eu/event/laserlab-europe-talk-boosting-multiphoton-3d-printing-for-biomedical-engineering-small-features-high-impact/
LOCATION:Online
CATEGORIES:laserlab-europe events,laserlab-europe talk,lasers4eu
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