A NEW ELECTROCATALYST FOR OBTAINING CLEAN AND SUSTAINABLE HYDROGEN 📰 👉 https://lnkd.in/dNpzZFKd ➡ An international research team lead by ICFO and Institut Català de Nanociència i Nanotecnologia (ICN2) develops a new water electrolysis system based on a cobalt tungstate membrane. This type of #catalyst could be the key to the cheap and sustainable production of #hydrogen, a potential #greenfuel of the future. ➡ The research also involved infrastructure from the #InCAEM project at the #ALBASynchrotron. ➡ The study has been published in Science Magazine. #FonsNextGeneration #PlanesComplementarios #MaterialesAvanzados #FonsUECAT #FEDERRecerca #GreenHydrogen
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Discover eChemicles' Projects on the European Commission's Innovation Radar Platform (https://lnkd.in/dE5gnhuN)! 👏 Explore the groundbreaking work we're doing at eChemicles on the Innovation Radar platform. This initiative by the European Commission aims to make information about EU-funded innovations visible and accessible to the public, showcasing the exceptional technological and scientific advances being achieved by researchers and innovators across Europe. We're proud to highlight one of our international collaborations, the #FlowPhotochem project, which has achieved the "Tech Ready" level. Additionally, our #SolarCO2Value low-temperature electrolyser technology, designed for #CO₂ reduction to CO, has reached market-ready status with very high market potential, as evaluated by independent experts from the Innovation Radar. All projects involving eChemicles align with the #UNSDG! 🌍 Learn more about eChemicles and stay tuned for our #sustainable #CCU-related updates! 👉 www.echemicles.com #InnovationRadar #SustainableFuture #ClimateAction #TechInnovation #EUfunded #ResearchAndDevelopment #Sustainability #electrolysis #netzero #science
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This study, published in Ionics, develops a biomass-derived carbon material using cellulose for electrochemical sensors' electrode substrate. By pyrolysis and activation, porous carbon with exceptional sensing capabilities was created. The sensor effectively differentiated phenolic pollutants HQ and CC using cyclic voltammetry and other detection methods. The sensor's wide linear range and low detection limits for HQ and CC demonstrated its high sensitivity and broad detection range. This research, from our group, highlights the potential of biomass-derived carbon sources in environmental water analysis and opens new possibilities for cellulose-based materials in sensor technology, promoting advancements in environmental monitoring. #Biomass #CarbonMaterials #ElectrochemicalSensors #EnvironmentalMonitoring #Innovation #ResearchPublication #Ionics https://lnkd.in/dyPScXeJ
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A new international collaborative effort has been published: "Green Synthesis of MOF-based Materials for Electrochemical Reduction of Carbon Dioxide." The electrochemical reduction of CO2 is one of the most relevant technologies for transforming this greenhouse gas into valuable products. However, developing cost-effective and sustainable electrocatalysts remains a challenge. In this study, the synthesis parameters of ZIF catalysts were tuned via a green steam-assisted dry-gel approach, demonstrating significant effects on their morphological properties, and influencing selectivity for CO formation. This approach facilitates syngas production with customizable CO ratios. Special thanks to Juqin Zeng for inviting us to be part of this remarkable project! Credits: Mitra Bagheri, Julien K. Dangbegnon, Nicolò Monti, Luís Mafra, Fabrizio PIRRI, juqin zeng This research was a collaborative effort among Politecnico di Torino, Istituto Italiano di Tecnologia, and CICECO - Aveiro Institute of Materials. https://lnkd.in/dNdNygUw
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A paper published in Hydrogen discusses ways to use hydrogen as a cleaner and more sustainable energy source as an alternative to carbon-based energy. As mentioned in Forbes, the paper focuses on recent advances in using nanomaterials to improve the production of hydrogen, with a particular emphasis on controlling the physical and chemical features of these materials at a sub-nano or atomic scale. The goal is to optimise performance and design efficient nanocatalysts for hydrogen production. Read more about this research: https://brnw.ch/21wG9sA or view the news story: https://brnw.ch/21wG9sC #openaccess #openscience #hydrogenenergy
Council Post: The Imperative Balance: Creating Green Hydrogen With Efficiency And Low Energy
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How will future electrolyzer research look like? We are currently building it at Helmholtz-Institut Erlangen-Nürnberg für Erneuerbare Energien. So far, it deals with catalyst dispersion making and coating. I am excited to hear your thoughts Helge S. Stein and Alán Aspuru-Guzik at the Acceleration Consortium conference. #innovation #technology #hydrogen #labautomation
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We love to sit down and talk science. Today, we get to highlight Jesus Adrian Diaz Real and the team at CIDETEQ, SC: SRINIVAS GODAVARTHI, goldie oza, Jessica Cárdenas Martínez, Arlete Vazquez, Darshana Rajput and Ariadna García, who are researching clean hydrogen production from sunlight. We were fortunate enough to interview an incredibly busy Dr. Diaz-Real and discuss his research in Photocatalytic Hydrogen Production without the need for traditional platinum group elements, his perspective on the industry's future, and his advice for the next generation. Three things beyond his research application we found inspiring: His love for his students and the work he is doing His passion to make a difference in the world His humble easy, going nature After hearing about his work and how G2V assisted him, we knew that a world of great minds like his, given the right instruments to expand the scientific body, would guarantee a promising tomorrow. Here are a few words of wisdom he has to pass along to the next generation of scientists: “You have to be fascinated by what you do. Without that, you won’t be able to stay right at the edge of knowledge. Generating new knowledge costs a lot, but simply being fascinated by the idea that you can do it helps make everything worth it.” -Dr. Jesus Adrian Diaz Real If you are interested in hydrogen production, photochemistry, or a greener tomorrow, please check out his article! https://lnkd.in/gwi3D8Kr #Chemistry #Hydrogen #Innovation #Science
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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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SFBN Feed: How to achieve speed and scale in the clean energy transition https://lnkd.in/dfPMaAwy The Stanford Forum on the Science of Energy Transition brought together scientific experts, technology innovators, and industry leaders to explore practical pathways to a decarbonized future. Click here to view original post Click Here to [...] #BayArea #SanFrancisco #Biotech #Lifescience #News
How to achieve speed and scale in the clean energy transition
https://sfbn.org
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🚀 Dive into the heart of Ph2otogen's goals! 🎯 Our objectives include identifying innovative semiconducting materials, developing scalable photocatalytic flow reactors, achieving solar-to-hydrogen efficiency, and much more. Stay tuned for progress updates! #RenewableEnergy #Innovation #GreenTechnology
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#PlatinumGroupMetals (PGMs) are crucial to renewable energy and the development of hydrogen technologies, with more global economies looking towards these technologies to help accelerate the path towards #NetZero2050. Our proprietary process extracts PGMs from end-of-life materials, including spent catalysts, fuel cells, and medical and dental equipment, converting them into catalysts for application. Wide-scale and commercial implementation of this technology can significantly reduce the environmental footprint for the extraction of PGMs. Learn more in https://lnkd.in/gPn9bTxK
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Kudos to all the team for the hard work! 👏