Do you want to learn more about custom thermal & compression solutions for battery packs? Join Subhashini Gunashekar, PhD, Business Development Manager-EV, North America at Saint-Gobain, for this topic at July's #BatteryForum. Register here and join 1,000+ other battery professionals: https://lnkd.in/gpPqrzCz #VoltaFoundation #batteryengineering #cellengineering #thermal #batterypack #batteryinnovation #batteryevents #SaintGobain
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Want to learn how thermal interface materials can improve performance and maintain the stability of EV batteries? October webinar with Sandrine Teixeira de Carvalho, Stammer Chemie GmbH, will address and explore the important role of Thermal Interface Materials (TIM) in performance and safety of #battery packs for #EV applications and the effect of different fillers and various properties that determine the choice for an ideal interface material in batteries. Learn more/register: https://lnkd.in/e66sG33s #electricvehicles
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As the global Thermal Interface Materials (TIMs) market expands with the rise of electric vehicles, renewable energy systems, and miniaturized devices; silicone materials are at the forefront of innovation, offering superior thermal conductivity and stability. Hence, apart from just keeping you informed of the technological innovations around TIMs, Ingenious e-Brain can help businesses harness these trends with tailored technology roadmaps, market intelligence, and strategic approaches. By combining our expertise in technology scouting, competitive intelligence, and market potential estimation, we can assist key industry leaders such as 3M, Laird Performance Materials, Dow, Saint-Gobain, SEKISUI CHEMICAL, Henkel, WACKER, Honeywell, Denka Company Limited, Boyd and Gelest, Inc. in identifying new growth avenues and mitigating challenges within this dynamic space. Want to future-proof your TIM-related business strategy? Have a word with our Director of Business Development, Rehan Khan, by reaching out to him at rehan.khan@iebrain.com, and uncover how we can support your growth. #thermalinterfacematerials #TIMs #electricvehicles #renewableenergy #miniaturizeddevices #siliconeinnovation #thermalmanagement #techinnovation #smarttech #sustainableenergy #technologyroadmaps #marketintelligence #businessgrowth #futuretech #engineeringexcellence #advancedmaterials #futureproofingbusinesses
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Director Strategy and Business Development | Sustainability , Circularity | FMCG | Consumer Products | Beverage | Pet & Animal Foods | Chemicals & Plastics | Packaging | Ex- Frost & Sullivan, MnM, Datamatics
#EV #Batteries - When selecting materials for thermal interface components that will be assembled into a li-ion battery #thermalconductivity #thickness #durability #strength #resistance #weight #cost #Thermal Interface Material #circularity #sustainability Connect with me to explore more deep dive into this topic. By combining our expertise in technology scouting, competitive intelligence, and market potential estimation, we can assist key industry leaders such as 3M Laird Performance Materials, Dow Saint-Gobain SEKISUI CHEMICAL Henkel WACKER Honeywell Denka , in identifying new growth avenues and mitigating challenges within this dynamic space.
As the global Thermal Interface Materials (TIMs) market expands with the rise of electric vehicles, renewable energy systems, and miniaturized devices; silicone materials are at the forefront of innovation, offering superior thermal conductivity and stability. Hence, apart from just keeping you informed of the technological innovations around TIMs, Ingenious e-Brain can help businesses harness these trends with tailored technology roadmaps, market intelligence, and strategic approaches. By combining our expertise in technology scouting, competitive intelligence, and market potential estimation, we can assist key industry leaders such as 3M, Laird Performance Materials, Dow, Saint-Gobain, SEKISUI CHEMICAL, Henkel, WACKER, Honeywell, Denka Company Limited, Boyd and Gelest, Inc. in identifying new growth avenues and mitigating challenges within this dynamic space. Want to future-proof your TIM-related business strategy? Have a word with our Director of Business Development, Rehan Khan, by reaching out to him at rehan.khan@iebrain.com, and uncover how we can support your growth. #thermalinterfacematerials #TIMs #electricvehicles #renewableenergy #miniaturizeddevices #siliconeinnovation #thermalmanagement #techinnovation #smarttech #sustainableenergy #technologyroadmaps #marketintelligence #businessgrowth #futuretech #engineeringexcellence #advancedmaterials #futureproofingbusinesses
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There is no one-size-fits-all approach to finding the right type of battery for your #UPSsystem. Choosing the best solution involves weighing the benefits and drawbacks of each technology, and identifying which is best suited for your system. Read Riello UPS Ltd's white paper for an in-depth comparison of lead-acid, pure lead and lithium-ion batteries to better understand which one is right for you. https://bit.ly/4gbJ19h #UPSbattery #leadacid #lithiumion #pureleadbattery #lithiumbatteries
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ALAMEDA, Calif., September 19, 2024--(BUSINESS WIRE)-- Sila Nanotechnologies, Inc. ("Sila"), a next-generation battery materials company, today announced a multi-year supply agreement with a wholly owned subsidiary of REC Silicon ASA ("REC"), a leading innovator in solar-grade silicon and silicon materials. The first commercial deal for REC’s silane in the EV battery market and ensures US-supply of silane for production of Sila’s Titan Silicon™ anode material. "Our agreement with REC Silicon is a critical step in securing the raw materials needed to deliver Titan Silicon to our auto customers for the long-haul," said Gene Berdichevsky, Co-founder and CEO at Sila. "It also marks the importance of ensuring domestic production and supply of a critical next-generation material to support US manufacturing leadership in clean energy." Read full article: https://lnkd.in/esUktZVd 👉Follow Battery Market News for the latest happenings in the battery industry and more! #Sila #SilaNano #RECsilicon #SilaNanoTechnologies #Advancedtechnology #Battery #BatteryProduction #BatteryMarket #BatteryMarketNews #BatteryNews #BatteryMarketTrends #BatteryNewsUpdates #BatteryNews2024 #eMobility #Battery #BatteryProduction #BatteryNewsPage #BatteryResearch #Batteries #CleanEnergy #BatteryIndustryNews
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⚡ Electrode Mixing Webinar ⚡ Join Gillean Graves and IKA – Laboratory, Analytical and Process Technology for an informative webinar on the challenges and solutions of electrode mixing on June 25 at 11 AM ET. Register here: https://lnkd.in/gvYjxwvr The battery industry grapples with numerous hurdles in achieving consistent, high-quality materials while optimizing production efficiency. With respect to electrode mixing, traditional technologies may fall short in addressing these challenges, leading to prolonged mixing times, increased costs, and scalability limitations. In this webinar, IKA will discuss current challenges related to electrode mixing in terms of homogeneity, cycle time, and waste reduction, as well as explore advanced solutions that will empower manufacturers to stay ahead in the dynamic energy storage market. #VoltaFoundation #IKA #batterynews #batterywebinars #batteryevents #electrode #homogeneity #batterymanufacturing #energystorage
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The longer you research 🔋 Solid-State batteries, the more likely you are to come to the realization that a ⚗ LITTLE LIQUID electrolyte isn't so bad after all! This conclusion is at least obvious when you look at all the companies that have now announced that they will not be producing ALL SOLID-STATE batteries after all. The most prominent example here is probably #QuantumScape, who were long thought to be relying on All-Solid-State, but have since admitted that they also use small amounts of liquid electrolytes I have summarized here what other exciting insights there are into the solid-state industry: https://lnkd.in/e7YbquEB
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Dr. Finkel's statement of “The alternative is to use batteries [and] the price of batteries is following a stunning downward trajectory.” is absolutely correct (link to article below). But not all applications are purely focused on cost and not all use cases may benefit from the comparatively shorter discharge duration lithium-ion batteries typically excel at. There will have to be diversity of technologies in the Long-Storage Duration space and similarly there will have to be diversity in lithium-ion battery chemistries to cater for various application segments. https://lnkd.in/deTbry9w
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Are the current solid state offerings worthy of the promise? How does the World changing around us affect the Solid Sate battery proposition? How, when, why will they win versus lithium ion liquid? I look forward to exploring these questions and more at this years SSB conference. See you there! #battery #solidstate #EV #energystorage #ARPA #cleanenergy #highenergy
Solid-State Batteries: A Springboard to a Carbon-Free Future with Dr. Halle Cheeseman from ARPA-E. Solid-state batteries are getting close to serious consideration for automotive applications, but for the most part the cathode chemistries to be utilized will be those that have been well proven in lithium-ion. High energy cathodes coupled with lithium anodes are the ultimate destiny for solid-state technologies, because they will deliver energy densities that exceed 500 Wh/Kg and may even attain 1,000 Wh/Kg. In this presentation these chemistries will be explored, and both the challenges and opportunities discussed. Selected technologies will be shown as examples from the ARPA-E EVs4ALL and PROPEL-1K portfolios. https://lnkd.in/davw7MK #CET4SolidState
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LMFP cathode material is expected to become an upgraded material for LFP cathode material with the support of new production processes and modification technologies. In the past, LMFP batteries were limited by low conductivity and cycle performance and failed to be promoted on a large scale. With the continuous innovation of processing technology, the specific capacity of LMFP batteries has been improved, cycle performance has been improved, and its energy density can be close to the current ternary five-series batteries, in addition, its cash cost is lower than that of ternary cathode material. Furthermore, LMFP cathode material can also be compounded with other cathode materials such as ternary, lithium manganate, and LFP, to meet the requirements of high energy density and high safety performance opening up more commercial applications. Learn more: https://lnkd.in/gdXFBYhA #lithium #manganese #nickel #cobalt
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Great topic for this month's #BatteryForum!