Last week, Advanced Energy launched the Sekidenko 4100T! This optical temperature pyrometer provides a next-generation process and control redesigned for higher stability and improved data for quality and efficiency. Learn more: bit.ly/4aROGOG
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🔋 Sodium-Ion Batteries: A New Alternative to Lithium? Sodium (Na), which is over 500 times more abundant than lithium (Li), has captured growing interest as a promising alternative for battery technologies. Despite the abundance, sodium-ion batteries face challenges such as lower power output and longer charging times, prompting the need for next-gen materials. Korea Advanced Institute of Science and Technology's Breakthrough: 🚀 High-Energy, Rapid-Charging Hybrid Battery: A research team led by Professor Kang at KAIST has developed an innovative hybrid sodium-ion battery, combining anode materials typical of batteries with supercapacitor-compatible cathodes. This allows for high storage capacities and fast charge-discharge rates, positioning it as a strong competitor to lithium-ion batteries. ⚡ Impressive Performance: This hybrid battery achieves an energy density of 247 Wh/kg and a power density of 34,748 W/kg, addressing the current limitations of sodium-ion storage systems. 🔋 Broader Applications: With rapid charging and improved energy density, this breakthrough paves the way for use in a range of electronic devices, including electric vehicles. KAIST's innovation marks a significant step forward in the future of energy storage technology, offering a sustainable alternative to lithium. #BatteryInnovation #SodiumIonBatteries #EnergyStorage #KAIST #ElectricVehicles #Sustainability #NextGenTech 🚗🔋
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On the morning of May 17, Guoxuan Hi-Tech released the Xingchen Battery at the company’s 13th Technology Conference, which uses self-developed second-generation silicon carbon materials and ultra-fast electrolytes to support fast charging from 10% to 70% in 9 minutes. It is reported that a battery pack equipped with this battery cell can complete charging of 350 kilometers of driving range in 5 minutes, and 600 kilometers of driving range charging in 10 minutes. At the same time, Xingchen Battery Pack can release 70% of the heat outside the Pack within 3 seconds, achieving thermal and electrical separation. At the meeting, Guoxuan Hi-Tech also released the all-solid-state battery Jinshi Battery. The Jinshi Battery adopts breakthrough all-solid-state technology with an energy density of up to 350Wh/kg, which is more than 40% higher than the mainstream ternary lithium battery, providing a longer battery life for electric vehicles. endurance and higher energy efficiency. Visitor registration is free: https://lnkd.in/ehqGKrub #WBE #Battery #Energy #Storage #EV
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Are you considering ways to include energy monitoring in your industrial applications? The latest case study in the groov case study library features Mercer Technologies' story of innovation. See how they leverage energy monitoring data from Opto 22's groov product family: https://op22.co/3XcH4m4 #energymonitoring #groovRIOEMU
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Learn how Parker innovations can help optimize performance and safety throughout the hydrogen value chain
Discover the future of hydrogen sealing technology. Learn how our innovations can help optimize performance and safety throughout the hydrogen value chain - from production, storage and transportation to end-use applications that use hydrogen as an energy source. We address critical challenges such as functioning at cryogenic temperatures, pressure resistance of 1000 bar and more, minimizing leakage and ensuring a long service life. Take the opportunity to find out about the latest trends and discuss the challenges and solutions with our experts. https://prker.co/3TPHxY7
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Recently, I read about an energy provider in Lapland, Tunturiverkko by Inergia Oy, which saves €40,000 every week using predictive technologies to guarantee a smooth power supply. The possibilities for predictive tech are vast indeed. Yet on our journey towards mastering digital tools, I frequently encounter obstacles such as differences in access to technology and concerns about trust. Now is the moment to overcome these challenges and create a future where predictive tech and calibration converge to define a new era of industrial excellence. Discover more about this vision in my latest blog. https://hubs.ly/Q02wWNTR0 #saferworld #predictivemaintenance #calibration #digitalisation
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The rise of predictive technologies will indeed need calibration!
Recently, I read about an energy provider in Lapland, Tunturiverkko by Inergia Oy, which saves €40,000 every week using predictive technologies to guarantee a smooth power supply. The possibilities for predictive tech are vast indeed. Yet on our journey towards mastering digital tools, I frequently encounter obstacles such as differences in access to technology and concerns about trust. Now is the moment to overcome these challenges and create a future where predictive tech and calibration converge to define a new era of industrial excellence. Discover more about this vision in my latest blog. https://hubs.ly/Q02wWNTR0 #saferworld #predictivemaintenance #calibration #digitalisation
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Voisiko tulevaisuuden akku korjata itse itsensä? The EU-funded HIDDEN project set out to develop self-healing methods to prevent this dendrite growth. “Our aim was to create a method using a novel liquid crystalline electrolyte,” says Vilkman. “We thought that this could both slow down dendrite growth, and potentially even break down formed dendrites and heal the battery on demand.” ...The project team was able to prove in small test cells that the original concept of preventing dendrite growth works. It was even possible to bring a shorted cell back to life with the project’s self-healing protocol. “We also showed that it was possible to increase the lifetime of cells through using self-healing separators,” adds Vilkman. #akkuteknologia #selfhealingbattery https://lnkd.in/du39BQ8K
Could self-healing batteries be the future of e-mobility?
cordis.europa.eu
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Assistant Professor at Nanyang Technological University | TEDx Speaker | Editorial of Wiley (CE,EEM), Elsevier (eSci,CEJ,JEC), RSC (MH), Nature (SR) | ISE-Elsevier Award | Sabic Young Professional | PIERS Young Scientist
🚀 Discover the Future of Energy Storage! 🚀 🔋 Multivalent-Ion Batteries are emerging as game-changers in sustainable energy storage, offering higher charge density than traditional lithium-ion batteries. However, they face challenges like slow ion diffusion. 📚 In our latest review, we dive deep into the potential of MXene-based materials to overcome these hurdles. MXenes, with their unique structure, provide large interlayer spacing and abundant surface functional groups, making them ideal for facilitating efficient ion intercalation and diffusion. 🌟 🔍 Highlights include: Exploration of ions such as Mg2+, Al3+, Zn2+, and beyond. Summary of the latest advancements in MXene synthesis and engineering techniques. Discussion on how MXenes could revolutionize multivalent-ion batteries with their excellent specific capacity and power density. ⚡ The future of energy storage is bright with MXenes leading the way! Don’t miss out on this insightful review – it’s a must-read for anyone interested in the next big leap in battery technology. 🔗https://lnkd.in/d_ubr9gC #EnergyStorage #MXene #BatteryRevolution #SustainableEnergy #Innovation
Recent Progress in the Applications of MXene‐Based Materials in Multivalent Ion Batteries
onlinelibrary.wiley.com
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🎬Ready to be amazed? Join us on a virtual walkthrough of the Hinen battery cell factory and witness how we transform basic raw materials into revolutionary batteries. Here's where the future of energy storage is being written. #HinenInnovation #EnergyStorage #SustainableFuture
Hinen Battery Cell Factory
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Last month, our co-Founder and CEO John Busbee attended S&P Global’s annual CERAWeek event in Houston, TX, where he had the opportunity to deliver an Innovation Agora Pod presentation highlighting Xerion’s game-changing lithium-ion battery technology platform. This technology is core to our company’s revolutionary StructurePore™ lithium-ion battery electrode architecture and DirectPlate™ molten salt electroplating manufacturing process. Taken together, this architecture and manufacturing process enable Xerion to use low-purity battery material feedstocks, to deliver a lithium-ion battery that is lower cost, with higher energy density and power, faster charge, longer life, and lower risk of thermal runaway than options on the market today. Even better, we’re able to achieve 40% lower carbon emissions than conventional battery manufacturing thanks to this technology. The ability to leverage low-purity feedstocks in our manufacturing process allows for a reduced reliance on long, convoluted and environmentally harmful supply chains for processing and refining high purity battery precursors required for conventional lithium-ion battery manufacturing. At Xerion, we’re committed to strengthening the U.S. domestic battery supply chain. Check out John’s presentation here: https://lnkd.in/eMY3yG2y #battery #batterytechnology #batterychemistry #batteryinnovation #batterymanufacturing #lithiumion #cleanenergy #storage #energystorage #energytransition #energy
Xerion Advanced Battery Company
ceraweek.com
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2moThis is great