Ceres’ Post

🏡⚡The markets for sustainable construction and EV battery products are enormous. Thermulon who pitched at #CleantechVentureDay, will take advantage of these huge growth areas with its sustainable aerogel powders and granules. This versatility unlocks a variety of applications in insulating batts, blankets, panels and other products. Thermulon-based products can reach thermal conductivity of λ~20mW/mK: equivalent to plastics-based products. Unlike petroleum-derived #insulation, silica-based aerogels have an inorganic material backbone and can achieve a fire-rating suitable for use in high-risk settings (limited combustibility). #impactinvesting #ESG Thermulon has integrated the latest breakthroughs in aerogel processing technology with scalable industrial techniques to enable high-throughput and affordable manufacturing. Its competitive advantage lies in the use of low-cost precursors, ambient-pressure processing and continuous-flow reactor technology. The company has a stellar team who have Imperial College, consultancy and industry experience backgrounds. Find out more: https://ow.ly/RroV50Q5p2O

What if you could transform old #EV #batteries into new #cathode material without metals extraction? For a start, you'd save a lot of time, energy and GHG emissions! 🔋 ♻ Ascend Elements CEO Mike O'Kronley discusses the traditional #hydrometallurgical battery #recycling process, which requires individual #metals extraction, and compares it to our patented Hydro-to-Cathode® direct precursor synthesis process. Instead of extracting individual metals from black mass only to be recombined later, Ascend Elements' leaves the critical battery metals together in solution and extracts only the impurities. It's an ultra-efficient process that creates new, #sustainable cathode material with lower GHG emissions. This video is the keynote address from last week's Battery & Critical Metals Recycling Conference in Atlanta. Special thanks to DeAnne Toto, Editorial Director of Recycling Today, for hosting the conversation and covering such a wide range of EV battery recycling topics. Watch the full video now! 👇 https://lnkd.in/gWK_gUSa

Eco-friendly, self-regenerative fiber material recovers valuable metals from industrial wastewater . Technology to recover valuable metals from wastewater generated in various industries such as plating, semiconductors, automobiles, batteries, and renewable energy is important not only for environmental protection but also for economic reasons. #TechTrends #TechInnovationsDaily #DigitalFrontiers #FutureTechInsights

📘 Exciting News in the World of Lithium! 🚀 Thrilled to share that our latest Ebook " Along the Lithium-Ion-Battery Lifecycle" is now available! 🌐 Ready to supercharge your knowledge? Don't miss out! 🚀 #Lithium #BatteryTechnology #Ebook #EnergyStorage #Innovation #LinkedInLearning #TechTrends

New paper / resource by Joachim von Scheele entitled “Pathways Towards Full Use of Hydrogen as Reductant and Fuel”, can be found attached below ⬇️ #hydrogen

It was my great pleasure to contribute to the Journal Matériaux et Techniques edited by EDP Sciences on the Special Issue on ‘The role of Hydrogen in the transition to a sustainable steelmaking process’; congratulations to the Guest Editors Ismael Matino and Valentina Colla for having done a great job! The Special Issue collects very interesting papers deriving from the 'International Conference on Hydrogen for Green Steel', organised by The European Steel Technology Platform (ESTEP). Most papers are available in Open or Free Access form, and the whole issue can be found at https://lnkd.in/dXAxRM74 My contribution, titled “Pathways Towards Full Use of Hydrogen as Reductant and Fuel”, can be found attached below. #steel #metallurgy #sustainability #cleansteelpartnership #eu #research #greensteel #linde #hydrogen

🌟 Exciting News Alert! 🌟 Did you know that coal could hold the key to transforming carbon fibre production? 🤔 We're thrilled to share that a ground-breaking $10 million research project, led by the US Department of Energy (DOE) National Laboratories and esteemed universities, is underway to explore just that! 💥🔬 This initiative aims to unlock the potential of coal-derived carbon fibres, promising superior performance at a lower cost. Imagine stronger, lighter, and more affordable carbon fibres revolutionising industries like aerospace, defence, automotive, and construction! ✈️🏗️🚗 By diversifying coal utilisation in manufacturing, we're not just exploring new possibilities - we're also moving towards a more sustainable future, as traditional methods often rely on fossil fuel-based precursors such as petroleum-derived polyacrylonitrile (PAN). Using coal-derived precursors instead could potentially reduce dependence on petroleum and lower carbon emissions associated with production. 🌱💡 Stay tuned as we delve deeper into this fascinating journey of research and innovation! 💪🌍 #CarbonFiberRevolution #Innovation #SustainableFuture #AdvancedEngineering #DOE