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    HomeEV ProductsBatteriesSmaller EV Battery can Win the Race

    Smaller EV Battery can Win the Race

    In the race to go electric, carmakers have focused on the range to ease consumer anxiety over charging infrastructure, but battery makers are already working on the smaller, longer-lasting, and cheaper batteries of the future, which also charge more quickly.

    While carmakers today chase market leader Tesla Inc, seeking to build cars that can travel 300 miles (482 km) or more between charges, battery startups expect range will matter less as public electric vehicle (EV) chargers become ubiquitous. In the quest for smaller batteries that charge extremely quickly, the startup firms are experimenting with materials like silicon-carbon, tungsten, and niobium.

    The battery is an EV’s most expensive part, so true fast charging coupled with widely available chargers – a lack of charging infrastructure today is seen as slowing broader adoption of EVs – would allow automakers to build cars with smaller batteries at more affordable prices, yet boost profit by selling more vehicles to a broader audience.

    “Early adopters at the higher end of the market wanted bigger battery packs and longer range because they could afford it,” said Sai Shivareddy, chief executive of Nyobolt, a startup developing niobium oxide anode materials for batteries that can charge in minutes. “For more cost-sensitive mainstream adoption, you need smaller battery packs … but with the same experience as today (with fossil-fuel cars) where you can fill up in 5 minutes.”

    China dominates global EV battery production and companies like Contemporary Amperex Technology Co (CATL) are developing batteries to go farther on a single charge.

    Carmakers in China have rolled out small, low-cost EVs like the Wuling Hongguang Mini – which even with recent battery price rises still sells for around $6,500. The car is a joint venture of SAIC Motor Corp Ltd, General Motors Co and Wuling Motors.

    Western startups like Cambridge-based Nyobolt and Echion Technologies or Woodinville, Washington-based Group14 Technologies are working on electrode materials to bring super fast-charging batteries to market.

    According to startup data platform PitchBook, EV battery technology investments jumped more than sixfold to $9.4 billion in 2021 from $1.5 billion in 2020 as carmakers focused on the future.

    “We are in the larval stages of battery development,” said Lincoln Merrihew, vice president at data analytics firm Pulse Labs.

    Going small could also ease looming battery material bottlenecks as EV demand soars, while using less cobalt and nickel where China dominates refining and processing.

    Another benefit is carmakers could claim sustainability wins using less harmful materials in EVs and emit less CO2 manufacturing them.

    “Re-engineering the vehicle to minimize the size of the batteries, since that’s so expensive, is going to be a game changer,” Ford Motor Co’s chief executive, Jim Farley, said at a conference in June. The U.S. carmaker, he added, wants “the smallest possible battery for the competitive range” in its next generation of EVs starting in 2026.

    Others are squeezing more efficiency out of existing batteries, as Mercedes-Benz has done with its EQXX prototype with a range of 1,000 km (621 miles).

    MORE AFFORDABLE EVs

    Fast charging today is limited by EV batteries’ ability to absorb power quickly. Fast charging can shorten batteries’ lifespan or overheat them, so most EVs limit charging speed to protect them.

    At Nyobolt’s headquarters, CEO Shivareddy charges four batteries in around three minutes and plugs them into a robotic vacuum that busily cleans the floor behind him as he speaks.

    Niobium is a stable metal often used to strengthen steel – the world’s largest deposits are in Brazil and Canada. Used in anodes or cathodes, startups like Nyobolt and Echion say niobium can handle super-fast charging while lasting many years longer than today’s batteries.

    Nyobolt is focusing on high-performance racing EVs and Shivareddy said it will take years of validation before carmakers are ready to use its batteries in mass-market models.

    A few miles from Nyobolt, Echion’s niobium anodes are initially for commercial EVs like mining vehicles that operate continuously and will need fast charging.

    CEO Jean de La Verpilliere said Echion’s goal is to have batteries ready for passenger EVs by 2025.

    “Smaller batteries mean cheaper prices and therefore more people can afford EVs,” he said.

    Brazilian mining company CBMM dominates niobium production and has invested in Echion and other startups and is testing niobium with others including battery materials company Nano One , Toshiba and Volkswagen Caminhoes e Onibus, a Brazilian subsidiary of Volkswagen’s trucking unit Traton.

    Rogerio Marques Ribas, head of CBMM’s battery program, said although niobium’s energy density can be up to 20% lower than some contemporary batteries, “we can bring maybe three to ten times more life and more safety while charging in minutes.”

    “Raw materials will be a bottleneck for batteries,” Ribas added. “In the near future people will ask, why have a big battery pack?”

    ‘THE MARKET DECIDES RANGE’

    Niobium is not the only material that startups are exploring.

    Group14 Technologies makes silicon-carbon anode material that enables lithium-ion batteries to hold up to 50% more energy. The company raised $400 million from investors in May.

    Testing Group14’s material, Mercedes-backed battery maker StoreDot has charged batteries to 80% capacity in 10 minutes. Group14 CEO Rick Luebbe said its anode material could offer a fast EV charge in five minutes.

    “When I can top my battery pack off in five or 10 minutes … then it doesn’t really matter too much what that range is, whether it’s 150 miles or 300 miles,” Luebbe said.

    Michigan-based startup Our Next Energy (ONE) has developed its Gemini “dual chemistry” battery featuring a standard Lithium Iron Phosphate (LFP) traction battery with a second “range extender” battery using more advanced and expensive chemistries, providing low, medium and high range options.

    “The market ultimately decides the right level of range,” said CEO Mujeeb Ijaz.

    According to industry data, the average American car drives less than 30 miles per day. In Europe, the average is less than half of that.

    Isobel Sheldon, British battery company Britishvolt’s chief strategy officer, said as EV owners realize they are paying for more than they need, the market will demand less range.

    “As the market matures, people will start to ask why I am paying thousands … for a battery I’ll never use,” she said. “Most car use to is to drive to the shops, go and see friends or drop kids at school, not to drive to Monaco.”

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