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Get instant access to Prof. Stanley Whittingham’s keynote and 18 other CEF presentations. Dive deep into the evolution of battery technology, understand the challenges and advancements, and learn how you can contribute to a sustainable future. Register now for exclusive content from industry leaders: https://ter.li/h1v146 #CleanEnergy #BatteryResearch

Get instant access to Prof. Stanley Whittingham’s keynote and 18 other CEF presentations. Dive deep into the evolution of battery technology, understand the challenges and advancements, and learn how you can contribute to a sustainable future. Register now for exclusive content from industry leaders: https://ter.li/h1v146 #CleanEnergy #BatteryResearch

Get instant access to Prof. Stanley Whittingham’s keynote and 18 other CEF presentations. Dive deep into the evolution of battery technology, understand the challenges and advancements, and learn how you can contribute to a sustainable future. Register now for exclusive content from industry leaders: https://ter.li/h1v146 #CleanEnergy #BatteryResearch

📢 Check out our latest online course for the workforce from academia and industry 🔋 Learn more about "New and Emerging Battery Technologies" with Poul Norby EERA - The European Energy Research Alliance CLERENS CNR (Compagnie Nationale du Rhône) CSIC ECCSEL ERIC EASE - The European Association for Storage of Energy ENEA Eni Energies et Services Forschungszentrum Jülich SINTEF Università degli Studi di Perugia Karlsruhe Institute of Technology (KIT) Stefano Passerini Myriam E. Gil Bardají Olga Sumińska-Ebersoldt Dr. Pınar Arpaçay #education #batteries #research #energystorage #hybridenergystorage You can watch it here ⬇️

We are thrilled to announce that our review article, titled "Supercapacitors and Rechargeable Batteries, A Tale of Two Technologies: Past, Present, and Beyond", has been published in the Sustainable Materials and Technologies Journal. 🔋🌿 This paper offers a deep dive into the evolution and future trajectories of supercapacitors and rechargeable batteries, exploring their critical roles in energy storage and hybridization technologies. A discussion of wood-based materials, a major focus of my PhD research at Chalmers University of Technology, has also been included! Key Highlights: • Current & Future Trends: Outlining the development paths for both technologies in terms of energy density, power density, and application areas. • Focus Areas: We’ve provided an overview of major research areas over time, from metal oxides to wood-based materials in batteries to electrodes and novel integration schemes in supercapacitors. • Energy & Power Density: Projecting performance advances over the next decade with exciting possibilities in hybrid supercapacitor-battery systems. • Hybridization Influence: Discussing the growing importance of combining supercapacitors with rechargeable batteries for enhanced energy solutions. 🔍 Check out this article here to gain insights into emerging trends that could shape the future landscape of energy storage! https://lnkd.in/dBw3FbVb Acknowledgments: Thanks to my co-authors Niladri Roy Chowdhury, Agin Vyas, Qi Li, Mazharul Haque, Qian Xun, Torbjörn Thiringer, Peter Enoksson and Per Lundgren. Special thanks to Wallenberg Wood Science Center and the GreEnergy project for funding and supporting this review. #EnergyStorage #Supercapacitors #RechargeableBatteries #HybridEnergy #PredictionTrend

Exciting News in Sustainable Energy! We are thrilled to share the latest publication in the prestigious journal Nano Energy (Impact Factor 16.8), highlighting the pioneering contributions of Prof. John B. Goodenough, https://lnkd.in/dpNpjyQ6 to advancements in photo-rechargeable lithium batteries. This groundbreaking work explores the integration of advanced materials and innovative fabrication techniques, shedding light on the transition towards more recyclable, organic components and cutting-edge technologies to enhance battery performance. In an era where the urgency for sustainable energy alternatives is at an all-time high, Prof. Goodenough’s research stands as a beacon of innovation and hope. His contributions have revolutionized the field of energy storage, making significant strides in how we capture and store solar energy. For over seventy years, Prof. Goodenough has been at the forefront of scientific breakthroughs, including the revolutionary development of lithium cobalt oxide (LiCoO₂) as a cathode material, which laid the foundation for today’s widely used lithium-ion batteries. His work not only transformed portable electronics but also set the stage for the electric vehicle industry and beyond. Prof. Goodenough’s exceptional career is decorated with numerous accolades, including the Nobel Prize in Chemistry (2019), the Copley Medal (2020), and many others, reflecting his unparalleled impact on science and technology. Even at the age of 97, his dedication to advancing our understanding of materials science and solid-state physics remains unwavering. The article pays homage to his enduring influence in spearheading sustainable energy storage systems and his remarkable ability to inspire future generations of scientists. As we continue to face global energy challenges, Prof. Goodenough’s legacy reminds us of the profound impact that persistent and passionate research can have on our world. Read the full article here: John B. Goodenough’s Contributions to Photo-Rechargeable Lithium Batteries, https://lnkd.in/d4FQp-3a Let’s celebrate and draw inspiration from Prof. Goodenough’s extraordinary contributions as we strive towards a sustainable and energy-efficient future! 🌍🔋 #SustainableEnergy #BatteryTechnology #LithiumIonBatteries #JohnBGoodenough #NanoEnergy #RenewableEnergy #ScientificInnovation #MaterialsScience #EnergyStorage #SolarEnergy

New article out! Check out our information dissemination on Supercapacitors, Batteries and much more 🔋🔋🔌⚡⚡💡💡♻️💲

Discover how Alewijnse and Delft University of Technology analyse hybrid solutions with Li-ion battery systems in a groundbreaking study. TU Delft student Sankarshan Durgaprasad, in collaboration with Alewijnse, presents an economical approach to integrating Battery Energy Storage Systems (BESS) on DP-2 vessels. 👉 Download the white paper now on our website: https://lnkd.in/e94AB3em 👉 The article is also published in Heliyon by Elsevier on ScienceDirect. Read it here: Your article link: https://lnkd.in/eXjuRAqS #Alewijnse #WeConnect #hybridsolutions #hybrid #heliyon ELSEVIER Researcher Academy. #BESS #DP2 #batterysystems

Membrane technologies have emerged as a significant development in material science, advancing from basic experiments in the early 1900’s to sophisticated applications today. Initially developed for laboratory use, these technologies have evolved through decades of research and development to enable selective separations based on the size, shape, and chemical properties of molecules as well as the efficient transport of ions. This evolution has led membranes to being a key component for a range of industrial, environmental, and energy-related applications. The deployment of these membranes in various sectors enhances operational efficiencies and supports the development of new technological applications that address critical challenges in energy and environmental management.   The role of membrane technologies is underscored by their impact on major global megatrends such as sustainability, energy efficiency, and resource scarcity. Applications for membranes that highlight the impact on these trends include sour gas separation, carbon capture, water desalination, and new energy technologies (e.g., fuel cells, batteries, green hydrogen). Membrane adoption across these applications demonstrates their broad role in shaping future technological landscapes and their significant contributions to critical areas of global development. #MembraneTechnology #IndustrialInnovation #EnergyTransition #CleanTech

🌍 Join the NanoInnovation conference in Rome from September 9th to 13th. I'm thrilled to invite you to the session titled "Materials and Approaches for Solar-Driven Water Splitting for Hydrogen Production: Perovskites and New Organic Compounds". This session will focus on the potential of perovskites and new organic materials in solar-driven hydrogen production. 👤 Chair: Vera La Ferrara, ENEA 🎤 Invited Speakers: Lorenzo Zani, CNR-ICCOM Lorenzo Malavasi, University of Pavia Silvia Colella, CNR-NANOTEC Paolo Mariani, CNR-ISM 📅 Date: Thursday, 12th 🕑 Time: 14:00 - 15:30 Don't miss the opportunity to hear from experts in the field and engage in discussions that could shape the future of renewable energy! #HydrogenProduction #SustainableEnergy #Perovskites #Photoelectrolysis #photocatalysis #encapsulation #RenewableEnergy #WaterSplitting #SolarEnergy #CleanEnergy #GreenTech #dyesensitized #organiccompounds #LaboratoryforHydrogenandnewEnergyVectors