We're thrilled to be part of the International Battery Materials Association Show from September 8-13 at The Westin, Halifax, Nova Scotia! Join us for an in-depth look at the latest breakthroughs in battery technology at booth #8 and don’t miss NOVONIX CEO, Dr. Chris Burns, as he takes the stage on September 9 at 4:40 PM to share insights on the lithium-ion battery ecosystem. Come by, connect with our team, and discover how NOVONIX is powering the next generation of clean energy solutions. Learn more here: https://hubs.li/Q02P04-Y0 #Innovation #EV #NOVONIX #CleanEnergy #BatteryMaterials #Sustainability #ElectricVehicles #AdvancedMaterials #BatterySupplyChain #GreenTech #NovaScotia
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We're delighted to share that VSPARTICLE raises €6.5 million for innovation. That means: a boost for material discovery for a greener future. DIFFER is one of the users of the VSParticle technology. Süleyman Er, department head and group leader at DIFFER: “The collaboration with VSParticle aligns perfectly with DIFFER’s strategy to extend its national role in building the infrastructure ‘materials4energy’. With the VSP-P1 Nanoprinter, we aim to accelerate material development for energy applications and reinforce the Netherlands' leadership in sustainable energy research." Read more about the use of the VSP-P1 Nanoprinter at DIFFER: https://lnkd.in/eqMxueey Read more on the VSParticle website: https://lnkd.in/egSH5Qyx #futureenergy #energy #materials #research
VSParticle raises €6.5 million to power material discovery for a greener future
vsparticle.com
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🚀We are proud to announce that we have kicked off one more project European Union funded and supported by Clean Hydrogen Partnership. The EXSOTHyC Project will be coordinated by Stargate Hydrogen and have the participation of strong partners: University of Saint Andrews, Agfa, Eindhoven University of Technology, Fraunhofer IFAM 🎯The aim of the project is the development of Exsolution-Based Nanoparticles for Lowest Cost Green Hydrogen via Electrolysis. There is a growing consensus that the wider adoption of green H2 is not hindered by electrolyser CAPEX: the costs of green H2 are in most cases vastly dominated by OPEX, which in turn is a direct function of electrolyser efficiency. To achieve the lowest possible levelised cost of H2, efficiency should be prioritised over current density. 🔬EXSOTHyC will optimise electrolyser operation towards lower voltages and higher efficiencies. The innovation is three-fold and addressing: 🔹 Alternative pathways to the O2 and H2 evolution reactions by new anode and cathode approaches 🔹 Novel concepts of membrane electrode assemblies with integrated components 🔹 Novel cell design to enhance overall cell efficiency by integrating disruptive concepts 🔎 In a nutshell, we will combine electrodes made using powder metallurgy with ceramic nanoparticles fabricated by exsolution, leveraging on the synergy that both methods require reducing atmospheres. 🔔 Follow our channels to be the first to know about our new projects! 🌍 #GreenHydrogen #GreenTech #stargatehydrogen #Electrolysis
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It was a great week for Lyten at the World Future Energy Summit. Thank you MBZUAI (Mohamed bin Zayed University of Artificial Intelligence) for the shout out. --- Lyten 3D Graphene™ is a patented, tunable decarbonization supermaterial engineered from methane (a Greenhouse Gas). Lyten’s 3D Graphene is similar to two-dimensional graphene in many of its valuable properties, however, 3D Graphene can be orders of magnitude more chemically and electrically reactive while also being highly tunable due to its three-dimensional morphology. The processes and equipment to engineer three-dimensional graphene materials are proprietary technological inventions patented by Lyten. Lyten is a materials innovation and applications company and the maker of the Lyten 3D Graphene™ materials platform. Lyten’s decarbonization supermaterials are being tuned for a wide range of applications, including the next-generation Lithium-Sulfur batteries for use in the automotive, aerospace, defense, and other markets; a next-generation LytR™ polymer composite that can reduce the amount of plastic used by up to half while maintaining structural and impact strength; and next-generation sensor arrays that significantly increase detection sensitivity and selectivity for use in automotive, industrial, health, and safety applications. Lyten, founded in 2015, is led by a group of experienced executives from across Automotive, Energy, Batteries, Semiconductors, Manufacturing and Defense, lists more than 420 patents granted or pending, and is currently manufacturing Lyten 3D Graphene material, as well as its LytCell™ EV batteries, in San Jose, California.
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🌟 Innovation Alert! 🌱💧 A new method that enhances copper oxide's ability to convert water into clean hydrogen fuel using sunlight. 😲 Learn more about this game-changing discovery in renewable energy! 👇 https://lnkd.in/exD8SbB5 #SustainableEnergy #Science
Give Climate Love 💚 to University of Cambridge: A simple ‘twist’ improves the engine of clean fuel generation | We Don't Have Time
app.wedonthavetime.org
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🌟 Partner Highlight 🌟 Introducing APOLLO project coordinator - Fraunhofer Center for Silicon Photovoltaics CSP. 💡 The Fraunhofer Center for Silicon Photovoltaics CSP was established as a joint facility of the Fraunhofer-Institut für Solare Energiesysteme ISE and the Fraunhofer Institute for Microstructure of Materials and Systems IMWS). Almost the entire value chain of silicon photovoltaics, including recycling activities, is represented on an industrial scale at the CSP. Excellent diagnostics enable analyses at every stage. Many years of work in this field and intensive contact with industrial partners ensure that the CSP has excellent expertise in this field. 🤝 In the #APOLLO project, based on the knowledge and experience of many years work in PV recycling, CSP will be responsible for: ☑ Process development for recovery of high-purity silicon and other materials. ☑ Waste sorting. ☑ Physical, chemical and thermal processing. ☑ Mono-ingot growth. ☑ Wafer cutting. ☑ Pilot line installation and assessment. Learn more 👉 https://lnkd.in/eg9_RYDE
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Supply Chain | Project Management | LSS | AI | Python | Data Analysis | Circular Economy | Risk Management | Lecturer | Author | Editor | Researcher | 100+ research papers | Academia Events Organiser
Join us in shaping the future of sustainable energy solutions! Contribute to this interdisciplinary book focusing on cutting-edge research in energy technologies. Explore fuel cells, phase change materials, hydrogen storage, and many more. Further Details: https://lnkd.in/e6SzuE8R #CallforChapters #smartmaterials #EnergyMaterials #SustainableEnergy #FuelCells #PhaseChangeMaterials #ThermalBattery #HydrogenGeneration #EnergyStorageSystems #EnergyConversion #ThermalManagement #SmartMaterials #Biomaterials #FunctionallyGradedComposites #MetallicMaterials #BioCeramics #MedicalApplications #MaterialsCoating #Photovoltaic #SolarCells #PiezoelectricMaterials #MagneticMaterials #ElectronicMaterials #Semiconductors #BiomaterialDesigning #FabricationMethods #AutomotiveMaterials #EnergyStorage #MaterialsCharacterization #Nanomaterials #MaterialsTheory #SurfacesAndInterfaces #Nanocomposites #EnergyStorageAndConversion
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𝗘𝗟𝗘𝗖𝗧𝗥𝗢𝗟𝗜𝗙𝗘 𝗞𝗶𝗰𝗸 𝗼𝗳𝗳 🚀 We are happy to announce that the Joint Clean Hydrogen project ELECTROLIFE was officially launched last month during a two days kick off meeting in Turin, Italy. ELECTROLIFE is a five years project, coordinated by the Politecnico di Torino (POLITO) and compromises of a strong multidisciplinary research and innovation pillar based on eight academic/research entities (Politecnico di Torino, Uniresearch B.V., FAU Erlangen-Nürnberg, Forschungszentrum Jülich, Technische Universität Graz, Consiglio Nazionale delle Ricerche, Aalborg University, Université de Lille) and industrial pillar involving nine companies and SMEs (Enel Green Power, 1s1 Energy, Stargate Hydrogen, Pietro Fiorentini, HYTER, KERIONICS, SolydEra Group, @AEA, volytica diagnostics. 𝗞𝗲𝘆 𝗳𝗼𝗰𝘂𝘀 𝗮𝗿𝗲𝗮 🔑 ELECTROLIFE will demonstrate, with a dedicated design of experimental set-up and with originally developed test procedures, the feasibility of targets set by SRIA for 2030, with specific focus on degradation rate. 𝗞𝗲𝘆 𝗲𝘅𝗽𝗲𝗰𝘁𝗲𝗱 𝗿𝗲𝘀𝘂𝗹𝘁𝘀 📈 • Successful lab-scale demonstrators with long lasting performances, using relevant experimental methods: • Validation of multiphysics models that include multi-mechanisms degradation; • Development of SoH tool and advance prognostic/diagnostic tools for life extension; • Produce high performance techs with lower content of CRM allowing scalability and recyclability; 𝗢𝗯𝗷𝗲𝗰𝘁𝗶𝘃𝗲 𝗼𝗳 𝗘𝗟𝗘𝗖𝗧𝗥𝗢𝗟𝗜𝗙𝗘 💡 To understand the basic and cause-effect chains of aging mechanisms to overcome the limited know-how on degradation phenomena, in order to model and design stacks and indicate day- by-day operation strategies to increase the lifetime of electrolysers. Clean Hydrogen Partnership #greenhydrogen #electrolysis #cleanhydrogen #horizoneurope #cleanenergyfuture
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Our recently started ELECTROLIFE project will provide the resources to develop models and tests for the degradation of electrolyzer systems
𝗘𝗟𝗘𝗖𝗧𝗥𝗢𝗟𝗜𝗙𝗘 𝗞𝗶𝗰𝗸 𝗼𝗳𝗳 🚀 We are happy to announce that the Joint Clean Hydrogen project ELECTROLIFE was officially launched last month during a two days kick off meeting in Turin, Italy. ELECTROLIFE is a five years project, coordinated by the Politecnico di Torino (POLITO) and compromises of a strong multidisciplinary research and innovation pillar based on eight academic/research entities (Politecnico di Torino, Uniresearch B.V., FAU Erlangen-Nürnberg, Forschungszentrum Jülich, Technische Universität Graz, Consiglio Nazionale delle Ricerche, Aalborg University, Université de Lille) and industrial pillar involving nine companies and SMEs (Enel Green Power, 1s1 Energy, Stargate Hydrogen, Pietro Fiorentini, HYTER, KERIONICS, SolydEra Group, @AEA, volytica diagnostics. 𝗞𝗲𝘆 𝗳𝗼𝗰𝘂𝘀 𝗮𝗿𝗲𝗮 🔑 ELECTROLIFE will demonstrate, with a dedicated design of experimental set-up and with originally developed test procedures, the feasibility of targets set by SRIA for 2030, with specific focus on degradation rate. 𝗞𝗲𝘆 𝗲𝘅𝗽𝗲𝗰𝘁𝗲𝗱 𝗿𝗲𝘀𝘂𝗹𝘁𝘀 📈 • Successful lab-scale demonstrators with long lasting performances, using relevant experimental methods: • Validation of multiphysics models that include multi-mechanisms degradation; • Development of SoH tool and advance prognostic/diagnostic tools for life extension; • Produce high performance techs with lower content of CRM allowing scalability and recyclability; 𝗢𝗯𝗷𝗲𝗰𝘁𝗶𝘃𝗲 𝗼𝗳 𝗘𝗟𝗘𝗖𝗧𝗥𝗢𝗟𝗜𝗙𝗘 💡 To understand the basic and cause-effect chains of aging mechanisms to overcome the limited know-how on degradation phenomena, in order to model and design stacks and indicate day- by-day operation strategies to increase the lifetime of electrolysers. Clean Hydrogen Partnership #greenhydrogen #electrolysis #cleanhydrogen #horizoneurope #cleanenergyfuture
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Join us for an "electrifying" panel at Third Collisions: "Moving Forward: The Evolving Ecosystem of Electric⚡️ and Hydrogen Mobility 🚗." Featuring the expertise of Fanny Cacherat (Total Energies, Hydrogen Business Developer for France), Michal Elias (ADVANTICS SAS, CEO) specialising in Power Electronics, and the moderation expertise of Mar Capeans, Department Head, Site and Civil Engineering Department at CERN. 🌐 Explore with us: 1️⃣ Complementary Solutions: Hydrogen vs. Electric Mobility 2️⃣ Entrepreneurship vs. Corporate Views: Flexibility and Power of Partnerships 3️⃣ Trends in Renewable Energy: Solutions from Hydrogen & Electric Worlds 4️⃣ International vs. National Contexts: Projects, Legislation, and Constraints 5️⃣ Tech Spin-Offs Beyond Mobility Get ready for an exploration of sustainability, innovation, and the future of transportation: https://lnkd.in/etf5r6eV
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Perovskite Revolutionizes Solar Hydrogen Production! ☀️➡️H2 Perovskite's got the future of clean energy glowing! Researchers at Ulsan National Institute of Science and Technology, South Korea, led by Dr. Dharmesh Hansora, have achieved a breakthrough in Photoelectrochemical (PEC) hydrogen production using all-perovskite systems. Their work pushes the boundaries of PEC technology, achieving: Record-breaking photocurrent density: 22.8 mA cm⁻², a game-changer for efficient solar-to-current conversion. ⚡️ Surpassing the 10% barrier: A stellar 9.8% Solar-to-Hydrogen (STH) efficiency, exceeding the threshold for practical applications. Scalability for real-world use: Successfully scaling photoanodes to mini-modules exceeding 123 cm² while maintaining impressive efficiency. Stability that lasts: Perovskite PEC systems showcase exceptional stability under simulated sunlight, paving the way for durable solutions. This is a giant leap towards clean and sustainable hydrogen production! Join the discussion! Let's talk about the future of PEC technology and how it can unlock a hydrogen-powered future. ️ https://lnkd.in/gaNx-Xc3 #PerovskitePEC #SolarHydrogen #RenewableEnergy #Sustainability #FutureofEnergy #CleanTech #Innovation
Perovskite Revolution: Photo electrochemical (PEC) Hydrogen Production in South Korea
greenh2world.com
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