Esta es la BATERÍA que CAMBIARÁ EL MUNDO | Las BATERÍAS de SODIO que están haciendo CATL y BYD

A true revolution is brewing in the world of electric mobility, one that will completely change the price of electric cars in the not-too-distant future. This is the story of how sodium batteries will change the world, with CATL and BYD leading the way and spearheading a significant advance in affordable batteries for electric vehicles. === 📸 Follow me on Instagram 👉   / earcos   🕹 Follow me on TikTok 👉   / earcos   ✅ Subscribe to my newsletter 👉 https://geni.us/YsJMIA /// OFFERS + DISCOUNTS FOR MY SUBSCRIBERS //// ⚡️ Get €60 off your electricity bill with Octopus: https://geni.us/octopus-60 🤑 Get €5 to open an N26 account, with no fees: https://arcos.co/n26 📗 Up to 90 days free of thousands of audiobooks: https://arcos.co/audible === Sodium batteries are poised to be the driving force behind the next major revolution in the automotive industry and energy storage. In this video, we delve into why 2026 will mark a turning point with the arrival of affordable batteries that will finally democratize access to electric cars. Unlike conventional lithium-ion cells, sodium-ion technology uses extremely abundant and easily extracted materials. This not only simplifies the global supply chain but also drastically reduces production costs. This technology is key to manufacturing standard-range vehicles at much more competitive prices, allowing sustainable mobility to cease being a luxury and become a real option for everyone. What will you learn in this video about sodium-ion batteries? ✅ Technology Fundamentals: We explain how sodium-ion batteries work (cathode, anode, and electrolyte) and why they share so many similarities with lithium-ion batteries, but with disruptive economic advantages. ✅ The Role of CATL and Naxtra 2: We analyze the recent announcement from the world's largest battery manufacturer. CATL has achieved the same energy density as current LFP batteries (175 Wh/kg) with its new generation of sodium cells, eliminating the main barrier that prevented their widespread adoption. ✅ Comparison: Sodium vs. Lithium (LFP and NMC): Why weren't they used before? We review the evolution of energy density and how sodium is overcoming its historical limitations to compete head-to-head with LFP batteries in terms of range and performance. ✅ Affordable Batteries and Economies of Scale: You'll understand how the ease of sodium extraction and existing manufacturing infrastructure will allow for unprecedented price reductions starting in the fourth quarter of 2026. ✅ Competitive Advantages: Beyond price, we explore the superior safety of these cells, their longer lifespan (capable of withstanding up to 10,000 full charge cycles), and their excellent performance in climates with extreme temperatures. ✅ ✅ The future of urban mobility: Why A-segment cars and urban electric vehicles will be the first to massively adopt sodium batteries, progressively replacing the more expensive lithium cells. ✅ The revolution of cheap batteries is unstoppable. The automotive market is constantly looking for ways to reduce the cost of the most expensive component of electric cars: the battery. With the arrival of large-scale production by giants like CATL, BYD, and LG, we are on the verge of a transformation similar to the one we experienced with the popularization of LFP batteries in 2019, but on a much larger scale. Sodium batteries not only promise more affordable cars, but also a greener and more sustainable manufacturing process by eliminating scarce or controversial materials like cobalt. It is the beginning of an era where 50% of electric vehicles could be equipped with this technology, guaranteeing durability, fast charging, and, above all, a much lower purchase price for the end user. If you want to understand how energy storage is changing the world and why sodium is the undisputed star of this decade, don't miss this detailed analysis of the future of sodium batteries and the path to cheap, high-performance batteries.