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Le titre de cette vidéo est O Fim do Lítio? A Aposta Bilionária no Sódio que Está Virando o Jogo, sa durée est de 00:14:04 secondes, et elle a été fournie par l’auteur. La description suit ci-dessous :« Par cours Laziness Artificiel – le meilleur contenu AI au Brésil https://lista.visaoem360.com.br/ia-novo-ouro-a- a-internet lithium a régné absolu dans le monde des batteries, mais cette époque peut se terminer. durable. Mais le sodium a-t-il suffisamment de force pour remplacer le lithium? Ou sommes-nous simplement confrontés à une autre promesse gonflée? Dans cette vidéo, nous démêlons la réalité derrière la révolution du sodium: les avancées, les limites, les intérêts politiques et la vraie bataille pour l’avenir de l’énergie. Avez-vous aimé la vidéo? Laissez votre semblable, partagez-le avec quelqu’un qui a besoin de voir cela et commente ce qui vous a le plus surpris! Vous voulez soutenir la chaîne et regarder les vidéos avant tout le monde? Tournez un membre et entrez dans le groupe de ceux qui voient le superficiel. Vous voulez gagner de l’argent avec l’intelligence artificielle et YouTube? Library with 1000+ Image Prompts with AI https://lista.visaoem360.com.br/bibliotecaDeprompts_desc Youtube without mimimi-Grow fast on youtube https://lista.visaoem360.com.br/youtube-mimi-mimi edite as the big youtubers https://lista.visaoem360.com.br/edite-como-youtubers naviguer en toute sécurité avec nordvpn https://lista.visaoem360.com.br/nordvpn books-expand à vos connaissances! The Power of Habit – https://lista.visaoem360.com.br/opoderdohito_sh la génération anxieuse – https://lista.visaoem360.com.br/ageraoansiosa_sh Hazarde Minds – https://lisetonsaem360.com.br/mentiges_perigos_s 21e siècle – https://lista.visaoem360.com.br/21_licoes_sec21_sh une vérité indigeste – https://lista.visaoem360.com.br/uma_indigesta Bad Blood – https://listaoem360.com.br/bad_blood le motif de bitcoin – https://lista.visaoem360.com.br/padrao_bitcoin Produits recommandés https://mercadolivre.com/sec/1knz4cn | https://amzn.to/3rr0uir Mini compresseur portable rechargeable https://mercadolivre.com/sec/1in8xfy | https://amzn.to/42bk1 Miroir de rétroviseur Miroir avec tableau de bord https://mercadolivre.com/sec/1qdjj2r | https://amzn.to/3eiz47f Turbo Vehicle Charger https://mercadolivre.com/sec/2geqytz | https://amzn.to/3yaadsz Organisateur de coureur https://mercadolivre.com/sec/1ortac2 | https://amzn.to/4iolrpi Carrise magnétique Mobile Support https://mercadolivre.com/sec/1rw2ttx | https://amzn.to/4jlpbmq Charger portable haute capacité https://mercadolivre.com/sec/1n36rl3 | https://amzn.to/4jm9yib téléphone Bluetooth avec annulation de bruit https://mercadolivre.com/sec/17vedjf | https://amzn.to/4iukwfy aspirateur portable pour les voitures https://mercadolivre.com/sec/1ep7mda | https://amzn.to/3errwz2 arôme de l’air de la voiture https://mercadolivre.com/sec/2vnqmdw | https://amzn.to/4ccsyv0 webcam emeet 4k https://mercadolivre.com/sec/2l9ojf | https://amzn.to/4cdztlx Fifine microphone xlr Am8 https://mercadolivre.com/sec/1sqy83u | https://amzn.to/44cmrmp Vis électrique et perceuse https://mercadolivre.com/sec/1w8azdn | https://amzn.to/3rwlrzt Haut-pression Washer 1200W https://mercadolivre.com/sec/2yqc54n | https://amzn.to/3yfvrfs feyree 2 Charger portable https://mercadolivre.com/sec/1prkgzk | https://amzn.to/3yddrfs Refill portable weg weg 4.8kw https://mercadolivre.com/sec/2aolc2u wallbox 3.5KW portable https://mercadolivre.com/sec/1hcqhph | https://amzn.to/3gjr3nn Type 2 – 5 mètres avec 32a apple watch Series 10 GPS: https://lista.visaoem360.com.br/applewatchseries_10_sh https://lista.visaem360.com.br/applewatchSeries_10_10_ml https://lista.visaoem360.com.br/applewatchseries_10_am Samsung Galaxy Watch: https://lista.visaoem360.com.br/samsunggalaxywatch_6_sh https://lista.visaoem360.com.br/samsunggalaxywatch_7_ml https://lista.visaoem360.com.br/samsunggalaxywatch_7_am res: https://lista.visaoem360.com.br/regiocasiogshockcarbon_sh https://lista.visaoem360.com.br/relogotechnosteelgramesh https://lista.visaoem360.com.br/regiocasiogshockcarbon https://lista.visaoem360.com.br/relogio-technos-teel-grafite Chapitres vidéo: 00: 00-le début de la fin à Lithium? 01:23 – Le sel devient de l’or 03:02 – Lorsque le sodium devient une arme stratégique 4:32 – La révolte contre le monopole du lithium 06:53 – L’avenir du sodium est forgé dans le laboratoire 09:33 – Le sel doit encore prouver sa valeur 11:40 – Appel pour le cours 12:26 – L’ère du sodium: l’espoir ou l’illusion? #Batches #sodio #litio #tecnology # energía #geopolitics ».

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Boîte de Production Aérienne : L’Expertise du Drone

Quels sont les atouts d’une boîte de production de drones ?

? Les drones, un atout majeur pour la production audiovisuelle

Les drones changent la donne dans la production vidéo en proposant des prises de vue aériennes impressionnantes, assurant ainsi un rendu cinématographique. Ils présentent une flexibilité améliorée, offrant des options de captation en intérieur et en extérieur. Ils offrent une solution moins coûteuse pour les prises de vue par grue ou hélicoptère, contrairement aux méthodes habituelles.

Une incidence immédiate sur la qualité des photos aériennes

Capturer des images en haute résolution permet d’obtenir un rendu professionnel grâce aux capteurs 4K et 8K. En utilisant des angles originaux et des transitions harmonieuses, on peut élaborer des vidéos immersives pour le cinéma, la publicité et les films d’entreprise.

Affinez votre communication en intégrant une vidéo aérienne !

En choisissant une boîte de production drone, on peut obtenir des images saisissantes et mettre en valeur une entreprise. Attirer l’attention du public et renforcer l’identité visuelle d’une marque est le résultat d’un projet bien réalisé. Un expert en communication est là pour vous accompagner dans votre démarche.

L’union de SupraDrone et E-Media Production donne naissance à une nouvelle approche audiovisuelle. Grâce à des images en drone et des prises de vue au sol, chaque production est sublimée. Découvrez comment sur c e t t e page.

?Matériel et technologies employés

Les drones professionnels essentiels

Les drones tels que le DJI Mavic 3, l’Inspire 3 ou les modèles FPV sont choisis en raison de leur efficacité et de leur capacité à s’adapter à divers types de tournages. Chaque drone est attribué en fonction des besoins du projet, ce qui permet d’atteindre une qualité d’image optimale.

La pertinence des outils additionnels ne peut être sous-estimée

La qualité d’image est irréprochable grâce aux caméras et capteurs professionnels. La qualité audio bénéficie de l’utilisation de microphones spécialisés. Grâce à des logiciels avancés, un montage précis et fluide est réalisé en post-production.

Quelles sont les étapes pour sélectionner une agence de production drone ?

Éléments clés à prendre en compte

La qualité des services peut être jugée à travers l’expérience et le portfolio d’une agence. La sécurité lors des prises de vue est assurée par la conformité aux réglementations aériennes. La maîtrise des dernières technologies, couplée à une expertise technique, représente un atout majeur pour un rendu professionnel.

Quelles sont les raisons de collaborer avec des experts certifiés ?

Les opérations aériennes sont réalisées en toute sécurité par des télépilotes qualifiés, en respectant les normes légales. La prise en charge personnalisée tout au long du projet assure une réponse précise aux souhaits du client et maximise le rendu final.

Étapes de production et de finalisation

Les phases essentielles d’une production audiovisuelle par drone

La première étape de chaque projet consiste en une analyse des besoins et la définition d’un concept. La localisation des sites et l’organisation du tournage sont cruciales pour prévoir les défis techniques. La réalisation des prises de vue est assurée par des experts afin de fournir des plans de qualité supérieure. La phase finale, incluant le montage et la post-production, permet d’atteindre un rendu optimal.

Concepts de montage et d’édition

Pour obtenir une esthétique visuelle cohérente, il est essentiel de corriger les couleurs et d’étalonner. L’usage de transitions captivantes et d’effets spéciaux améliore la dimension visuelle des vidéos. En utilisant une bande sonore de qualité, avec musique et voix-off, on enrichit l’immersion et l’émotion du spectateur.

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le post original: Cliquer ici

#Fim #Lítio #Aposta #Bilionária #Sódio #Está #Virando #Jogo

Retranscription des paroles de la vidéo: When you hear about batteries, what is the first element that comes to mind? Lithium. Of course. For years, lithium has been the absolute star of the electrical revolution. Cars, cell phones, satellites. Everything is powered by this light, expensive and complicated to extract metal. But, in the heart of the world’s largest battery manufacturer, a new bet is emerging. And she can change everything. CATL, a giant that dominates almost 40% of the global market, is looking the other way. Not for solid state. Not for the miracle fusion. But for something much simpler. The salt. That’s right. The biggest lithium battery company on the planet is betting against lithium itself. Sodium. Cheap, abundant and much easier to extract. And it’s not just speech. CATL has already started manufacturing sodium batteries and predicts that up to half of the market could migrate to this new technology. But is sodium really the future of energy? Or will it be just another invention condemned to live in the shadow of old lithium? Before the answer, enjoy: if you like content that connects technology, future and real impact, like the video and subscribe to the channel. This helps to spread quality information around. Now, get ready. Because this story goes far beyond chemistry. It’s about the market, geopolitics and the silent game that will define who will control the next era of energy. Salt Is Turning to Gold. In November 2024, CATL surprised the market. Robin Zeng, the company’s co-founder, challenged the hype surrounding solid-state batteries. While many still bet on technologies that have barely left the laboratories, and that depend on billion-dollar incentives to become minimally viable, Zeng opted for a more pragmatic approach: betting on what is already viable now. Sodium batteries. And CATL didn’t just stop at the speech. Today, the company already sells hybrid systems combining lithium and sodium cells, as in its Freevoy Pack. Batteries that, even with lower energy density, are cheaper, more sustainable and less vulnerable to geopolitical crises. Sodium, after all, is not lacking. The world has oceans of it. It’s cheap. It’s easy to extract. And unlike lithium and cobalt, it requires neither aggressive mining operations nor political wars fought behind the scenes. And the most interesting thing: CATL has already announced its second generation of sodium batteries, reaching more than 200 Wh/kg of energy density. Still below the best lithium batteries, yes. But a gigantic advance for a technology that many thought was out of the question. While there is so much talk about a « green future » dependent on regulations, incentives and special taxes, sodium appears as a more natural answer: lower cost, abundance and practical viability. Salt, once a bargaining chip between ancient empires, is now a candidate to be the invisible engine of the next energy revolution. When Sodium Becomes a Strategic Weapon. If CATL’s movement would already be enough to move the market, what can we say about the reaction of its biggest rival? BYD, another Chinese giant, and, like CATL, strongly supported by the government, also decided to dive deep into the universe of sodium batteries. In 2027, BYD plans to open a new gigafactory dedicated exclusively to the production of sodium batteries. An estimated capacity of 30 GWh per year. It’s not little. It’s the type of movement that redesigns production chains. Even knowing that sodium still loses in energy density to lithium, BYD sees something bigger: Guaranteed abundance, Dramatically lower production cost, Superior resistance to extreme temperature variations and Less vulnerability to supply crises. The objective is simple. Democratize energy storage. Make access cheaper . Escape the suffocating logic that turns rare metals into geopolitical weapons. And most interestingly: BYD projects that, by 2025, the cost of sodium batteries will equal, and eventually surpass, that of the popular lithium iron phosphate batteries. What we are seeing is not just a technology race. It is living proof that, when there is a clear economic incentive, whether due to an abundance of material or cost reduction, progress occurs, despite the political obstacles, not because of them. The Revolt Against the Lithium Monopoly. While China accelerates its production of sodium batteries supported by its state-owned giants, on the other side of the world a new front begins to form. In the United States, small businesses are trying to challenge Asian dominance. But even here, the scene is far from a celebration of the pure free market. California-based Natron Energy emerges as one of those promises. Your bet: sodium batteries that charge and discharge up to ten times faster than conventional lithium batteries, with an estimated useful life of 50,000 cycles. But it would be illusory to pretend that Natron’s trajectory is driven solely by technical merit. The company received millions of dollars in federal grants from the Department of Energy, as well as state incentives from North Carolina to install its new gigafactory. Even in an environment that preaches innovation, growth is still tied to public financing. The risk, which should be assumed by private capital, ends up socialized between promises of « modernization » and « job creation ». Still, there is a crucial difference. In the United States, the diversity of actors and less state centralization offer space for multiple technological solutions to flourish, without a single company dictating the direction of the sector under political command. The Natron factory, designed to reach 24 GWh of annual production, is a bet on sodium as an alternative for stationary storage: data centers, telecommunications, electrical networks. A gigantic market, thirsty for cheaper and more durable alternatives. Technical challenges, of course, remain. Energy density still limits the use of these batteries in vehicles. But for the critical infrastructure sector, the potential is clear: more cycles, more speed, more security. While some talk about a green future driven by taxes and regulations, reality shows that the true energy revolution still depends on innovation, competition, and, unfortunately, subsidies. We can only hope that, in the end, efficiency and merit overcome the vices of political financing. The Future of Sodium Is Being Forged in the Laboratory. While large factories rush to transform sodium into a mass product, inside the laboratories another silent revolution begins to take shape. A revolution that could radically change what we understand about batteries. In the United States, researchers at Dincă Lab developed something that seemed unlikely: a sodium-based battery, using a completely organic material in the cathode. The compound, with an almost unpronounceable name, bis-tetraaminobenzoquinone, or simply TAQ, is made up of simple elements: carbon, hydrogen, oxygen and nitrogen. No cobalt. No nickel. No rare metals that fuel controversial mining chains and obscure geopolitical agreements. The potential? Gigantic. If it can be produced on a large scale, TAQ could rival the power of traditional lithium and cobalt cathodes, at a third of the cost. But, like everything that still lives within academic walls, the distance between the bench and the market is enormous. TAQ has already shown remarkable stability, resisting the normal tendency of organic materials to dissolve in the electrolyte, which has always been the major obstacle for « green » batteries. Still, there are no guarantees. No products. No factories. No market approval. And as always, no market, no scale, no real competitiveness. Interesting to note: the development of this material was supported by private funding, including from Lamborghini. A reminder that, even within universities, the most promising innovations emerge when the market sees concrete potential and invests its own capital. If this technology proves successful, it could create a new type of battery: cheaper, less dependent on strategic metals and with performance comparable to lithium. But between the « could » and the « will », there is an ocean of uncertainty. And in the real world, the best ideas die if they don’t find space to compete, without being stifled by bureaucracy, by protectionism or state myopia. Before continuing, I want to say a special thank you to everyone who is already a subscriber to the channel. Your support is fundamental, really. It is thanks to this that I am able to keep this project going, bringing content with consistency, research and quality. If you are not already a member, consider becoming a member. This directly helps the channel to grow, improve and continue bringing videos like this. Salt Still Has to Prove Its Worth. Despite the optimism, the reality is less salty than it seems. Sodium batteries have their merits. They’re cheap. They are abundant. They are resistant. But something essential is missing: energy density. Even with recent advances, sodium still cannot compete on an equal footing with lithium in applications that require the most space and efficiency. High-range electric cars, drones, smartphones… they all require lightweight, compact and powerful batteries. And in this arena, sodium still stumbles. It’s not just technology. It’s a market. A bigger, heavier battery means more expensive cars, reinforced structures, lower overall efficiency. And while the sodium industry struggles to scale up its production, lithium has experienced something unexpected: its price has plummeted. In the last two years, lithium has plummeted by more than 80%, going from 70 thousand dollars to 10 thousand dollars per ton. A drop caused by excess supply, mine expansion and market corrections. This new reality weakens part of the economic argument that promoted sodium as an « inevitable alternative ». There is also a cruel paradox: Sodium could be much more competitive if it had a global production scale. But to reach this scale, it must first be competitive against lithium. A chicken and egg race where many may simply not wait to see the end. Furthermore, the global battery production infrastructure is completely geared towards lithium. Changing materials is not as simple as changing parts. It takes time. It costs money. And in an already consolidated market, the inertia is brutal. The future of sodium is still promising, but the road to get there will not be straight. It will be full of curves, falls and, as always, barriers erected not by the lack of technology, but by the logic of the market itself, and, of course, by the political interests of those who still dominate the game today. And since we are talking about new technologies that are changing the world, there is a parallel transformation that you cannot ignore: artificial intelligence. If you really want to understand this and learn how to use AI in your daily life in a practical way, take a look at the Artificial Laziness course. Tools like: ChatGPT, Midjourney, Leonardo AI, Bing, Gemini and more. There are more than 80 classes, showing how AI tools are already transforming companies, professions and even the way we work and learn. Everything with simple language, real examples and immediate application. Whoever learns now, gets ahead. Scan the QR code on the screen, or the link in the description and see everything the course offers. The Sodium Era: Hope or Illusion? Sodium has arrived. It’s stronger than ever. But the future is still far from guaranteed. On the one hand, we have abundance, lower costs, climate resilience. On the other, technical limitations, infrastructure designed for lithium and a market that changes according to the forces of supply, demand and, let’s not forget, geopolitical interests. Companies like CATL and BYD are investing heavily, yes. But not without state support. In the West, initiatives like Natron’s show that there is still room for private innovation, although, once again, much of the recent growth has been supported by local subsidies and incentives. The official narrative, the one you see in the newspapers, sells a green, clean, inevitable future. But what the facts show is something else: a constant battle between technology, economic interests, industrial policy and geopolitical competition. Sodium is promising. It can democratize access to energy. But it will not be a spontaneous revolution. Not guaranteed. If this battle for the future of energy interests you, like the video, share, and tell me in the comments: do you believe that sodium can still beat lithium? I want to know your opinion. Because it is in this tension that the future will be decided. .

Déroulement de la vidéo:

0.12 When you hear about batteries, what is the first element that comes to mind?
0.12 Lithium. Of course. For years, lithium
0.12 has been the absolute star of the electrical revolution. Cars, cell phones, satellites. Everything is powered by this
0.12 light, expensive and complicated to extract metal. But, in the heart of the
0.12 world&;s largest battery manufacturer, a new bet is emerging. And she can change everything.
0.12 CATL, a giant that dominates almost 40% of the global market, is looking the other way.
0.12 Not for solid state. Not for the miracle fusion. But for something much simpler.
0.12 The salt. That&;s right. The biggest lithium battery company
0.12 on the planet is betting against lithium itself. Sodium.
0.12 Cheap, abundant and much easier to extract. And it&;s not just speech. CATL has already started
0.12 manufacturing sodium batteries and predicts that up to half of the market could migrate to this new technology.
0.12 But is sodium really the future of energy? Or will it be just another invention
0.12 condemned to live in the shadow of old lithium? Before the answer, enjoy: if you like
0.12 content that connects technology, future and real impact, like the video and subscribe to the channel. This
0.12 helps to spread quality information around. Now, get ready. Because this story goes far
0.12 beyond chemistry. It&;s about the market, geopolitics and the silent game that will define who will control
0.12 the next era of energy. Salt Is Turning to Gold.
0.12 In November 2024, CATL surprised the market.
0.12 Robin Zeng, the company&;s co-founder, challenged the hype surrounding solid-state batteries.
0.12 While many still bet on technologies that have barely left the laboratories, and that depend
0.12 on billion-dollar incentives to become minimally viable, Zeng opted for a
0.12 more pragmatic approach: betting on what is already viable now. Sodium batteries.
0.12 And CATL didn’t just stop at the speech. Today, the company already sells
0.12 hybrid systems combining lithium and sodium cells, as in its Freevoy Pack.
0.12 Batteries that, even with lower energy density, are cheaper, more sustainable and
0.12 less vulnerable to geopolitical crises. Sodium, after all, is not lacking.
0.12 The world has oceans of it. It&;s cheap. It&;s easy to extract. And unlike lithium and
0.12 cobalt, it requires neither aggressive mining operations nor political wars fought
0.12 behind the scenes. And the most interesting thing:
0.12 CATL has already announced its second generation of sodium batteries, reaching
0.12 more than 200 Wh/kg of energy density. Still below the best lithium batteries,
0.12 yes. But a gigantic advance for a technology that many thought was out of the question.
0.12 While there is so much talk about a "green future" dependent on regulations,
0.12 incentives and special taxes, sodium appears as a more natural answer: lower cost,
0.12 abundance and practical viability. Salt, once a bargaining chip
0.12 between ancient empires, is now a candidate to be the invisible engine of the next energy revolution.
0.12 When Sodium Becomes a Strategic Weapon. If CATL&;s movement would already be
0.12 enough to move the market, what can we say about the reaction of its biggest rival?
0.12 BYD, another Chinese giant, and, like CATL, strongly supported by the government,
0.12 also decided to dive deep into the universe of sodium batteries.
0.12 In 2027, BYD plans to open a new gigafactory dedicated exclusively
0.12 to the production of sodium batteries. An estimated capacity of 30 GWh per year.
0.12 It&;s not little. It&;s the type of movement that redesigns production chains.
0.12 Even knowing that sodium still loses in energy density to lithium,
0.12 BYD sees something bigger: Guaranteed abundance, Dramatically lower production cost,
0.12 Superior resistance to extreme temperature variations and Less vulnerability to supply crises.
0.12 The objective is simple. Democratize energy storage. Make access
0.12 cheaper . Escape the suffocating logic that turns rare metals into geopolitical weapons.
0.12 And most interestingly: BYD projects that, by 2025, the cost of sodium batteries will equal, and
0.12 eventually surpass, that of the popular lithium iron phosphate batteries.
0.12 What we are seeing is not just a technology race.
0.12 It is living proof that, when there is a clear economic incentive, whether due to
0.12 an abundance of material or cost reduction, progress occurs, despite the
0.12 political obstacles, not because of them. The Revolt Against the Lithium Monopoly.
0.12 While China accelerates its production of sodium batteries supported by its
0.12 state-owned giants, on the other side of the world a new front begins to form.
0.12 In the United States, small businesses are trying to challenge Asian dominance. But even here,
0.12 the scene is far from a celebration of the pure free market.
0.12 California-based Natron Energy emerges as one of those promises.
0.12 Your bet: sodium batteries that charge and discharge up to ten times faster
0.12 than conventional lithium batteries, with an estimated useful life of 50,000 cycles.
0.12 But it would be illusory to pretend that Natron&;s trajectory is driven solely by technical merit.
0.12 The company received millions of dollars in federal grants from the Department of Energy,
0.12 as well as state incentives from North Carolina to install its new gigafactory.
0.12 Even in an environment that preaches innovation, growth is still
0.12 tied to public financing. The risk, which should be assumed by
0.12 private capital, ends up socialized between promises of "modernization" and "job creation".
0.12 Still, there is a crucial difference. In the United States, the diversity of actors and
0.12 less state centralization offer space for multiple technological solutions to flourish,
0.12 without a single company dictating the direction of the sector under political command.
0.12 The Natron factory, designed to reach 24 GWh of annual production, is a bet on sodium
0.12 as an alternative for stationary storage: data centers, telecommunications, electrical networks.
0.12 A gigantic market, thirsty for cheaper and more durable alternatives.
0.12 Technical challenges, of course, remain. Energy density still limits
0.12 the use of these batteries in vehicles. But for the critical infrastructure sector,
0.12 the potential is clear: more cycles, more speed, more security.
0.12 While some talk about a green future driven by taxes and regulations, reality shows
0.12 that the true energy revolution still depends on innovation, competition,
0.12 and, unfortunately, subsidies. We can only hope that, in the end,
0.12 efficiency and merit overcome the vices of political financing.
0.12 The Future of Sodium Is Being Forged in the Laboratory.
0.12 While large factories rush to transform sodium into a mass product,
0.12 inside the laboratories another silent revolution begins to take shape.
0.12 A revolution that could radically change what we understand about batteries.
0.12 In the United States, researchers at Dincă Lab developed something that seemed unlikely:
0.12 a sodium-based battery, using a completely organic material in the cathode.
0.12 The compound, with an almost unpronounceable name, bis-tetraaminobenzoquinone, or simply TAQ,
0.12 is made up of simple elements: carbon, hydrogen, oxygen and nitrogen.
0.12 No cobalt. No nickel. No rare metals that fuel controversial mining chains
0.12 and obscure geopolitical agreements. The potential?
0.12 Gigantic. If it can be produced on a large scale, TAQ
0.12 could rival the power of traditional lithium and cobalt cathodes, at a third of the cost.
0.12 But, like everything that still lives within academic walls,
0.12 the distance between the bench and the market is enormous. TAQ has already shown remarkable stability, resisting
0.12 the normal tendency of organic materials to dissolve in the electrolyte, which has always been the major
0.12 obstacle for "green" batteries. Still, there are no guarantees.
0.12 No products. No factories. No market approval.
0.12 And as always, no market, no scale, no real competitiveness.
0.12 Interesting to note: the development of this material was supported by
0.12 private funding, including from Lamborghini. A reminder that, even within
0.12 universities, the most promising innovations emerge when the market sees concrete potential
0.12 and invests its own capital. If this technology proves successful, it could create a
0.12 new type of battery: cheaper, less dependent on strategic metals and with
0.12 performance comparable to lithium. But between the "could" and the "will",
0.12 there is an ocean of uncertainty. And in the real world, the best
0.12 ideas die if they don&;t find space to compete, without being stifled by bureaucracy,
0.12 by protectionism or state myopia. Before continuing, I want to say a
0.12 special thank you to everyone who is already a subscriber to the channel.
0.12 Your support is fundamental, really. It is thanks to this that I am able to keep this
0.12 project going, bringing content with consistency, research and quality.
0.12 If you are not already a member, consider becoming a member. This directly helps
0.12 the channel to grow, improve and continue bringing videos like this.
0.12 Salt Still Has to Prove Its Worth. Despite the optimism, the reality
0.12 is less salty than it seems. Sodium batteries have their merits.
0.12 They&;re cheap. They are abundant. They are resistant. But something essential is missing: energy density.
0.12 Even with recent advances, sodium still cannot compete on an
0.12 equal footing with lithium in applications that require the most space and efficiency.
0.12 High-range electric cars, drones, smartphones… they all require
0.12 lightweight, compact and powerful batteries. And in this arena, sodium still stumbles.
0.12 It&;s not just technology. It&;s a market. A bigger, heavier battery
0.12 means more expensive cars, reinforced structures, lower overall efficiency.
0.12 And while the sodium industry struggles to scale up its production, lithium has experienced
0.12 something unexpected: its price has plummeted. In the last two years, lithium has plummeted by
0.12 more than 80%, going from 70 thousand dollars to 10 thousand dollars per ton.
0.12 A drop caused by excess supply, mine expansion and market corrections.
0.12 This new reality weakens part of the economic argument that promoted
0.12 sodium as an "inevitable alternative". There is also a cruel paradox:
0.12 Sodium could be much more competitive if it had a global production scale.
0.12 But to reach this scale, it must first be competitive against lithium.
0.12 A chicken and egg race where many may simply not wait to see the end.
0.12 Furthermore, the global battery production infrastructure is completely geared towards lithium.
0.12 Changing materials is not as simple as changing parts.
0.12 It takes time. It costs money. And in an already consolidated market, the inertia is brutal.
0.12 The future of sodium is still promising, but the road to get there will not be straight.
0.12 It will be full of curves, falls and, as always, barriers erected not by the lack of technology,
0.12 but by the logic of the market itself, and, of course, by the political interests
0.12 of those who still dominate the game today. And since we are talking about new
0.12 technologies that are changing the world, there is a parallel transformation that you
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0.12 The Sodium Era: Hope or Illusion? Sodium has arrived. It&;s stronger than ever.
0.12 But the future is still far from guaranteed.
0.12 On the one hand, we have abundance, lower costs, climate resilience.
0.12 On the other, technical limitations, infrastructure designed for lithium and a market that changes
0.12 according to the forces of supply, demand and, let&;s not forget, geopolitical interests.
0.12 Companies like CATL and BYD are investing heavily, yes.
0.12 But not without state support. In the West, initiatives
0.12 like Natron&;s show that there is still room for private innovation, although, once again,
0.12 much of the recent growth has been supported by local subsidies and incentives.
0.12 The official narrative, the one you see in the newspapers, sells a green, clean, inevitable future.
0.12 But what the facts show is something else: a constant battle between technology,
0.12 economic interests, industrial policy and geopolitical competition.
0.12 Sodium is promising. It can democratize access to energy.
0.12 But it will not be a spontaneous revolution. Not guaranteed.
0.12 If this battle for the future of energy interests you, like the video, share,
0.12 and tell me in the comments: do you believe that sodium can still beat lithium?
0.12 I want to know your opinion. Because it is in this tension that the future will be decided.
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