Global automakers and battery producers are accelerating the development of a next-generation electric vehicle battery, called an all-solid-state battery. Massive investments are being made to begin mass production of the batteries – reportedly safer and more durable than existing ones – from as early as 2025.
Solid-state technology has been in the spotlight since lithium-ion batteries, which most EVs are currently using, have some issues such as the risk of catching fire, analysts said. The technology has the potential to deliver faster charging times and make the packs safer by eliminating the flammable electrolyte solution used in lithium-ion batteries, the Wall Street Journal quoted auto executives and analysts as saying last month.
"Solid-state technology is the game-changer," Frank Blome, who leads battery development at Volkswagen AG, said in March, according to the newspaper.
But there are hurdles to the technology's development. When the electrolyte is completely converted to a solid from a liquid, the ion conductivity decreases and the interfacial resistance increases. The battery can often be charged at high temperatures above 60 degrees Celsius, while the addition of lithium metal into the anode materials damages battery separators, generating a dendrite.
SES TO UNVEIL LITHIUM-METAL BATTERY
SES Holdings Pte. Ltd. (SES), one of the world’s top three all-solid-state battery makers, is set to unveil a lithium-metal (Li-Metal) rechargeable battery that tackles most of the above issues at its inaugural Battery World virtual livestream event, taking place in the US on Nov. 3, and in South Korea and China on Nov. 4, according to industry sources on Oct. 28. SES prevented the ion conductivity from decreasing by mixing about in about 10% liquid instead of allowing the electrolyte to turn completely solid.
The company significantly improved battery performance. Its energy density stood at 417Wh, much higher than the 250-300Wh of existing lithium-ion batteries’ density, increasing mileage of batteries of the same size by 30%.
It also takes 12 minutes to charge the battery to 90% from 10%, faster than the previous record of 18 minutes to charge a battery to 80% from 10%.
The battery’s durability was evaluated as strong. Its performance remained at 80% after charging and discharging was repeated 800 times, equivalent to driving for 300,000 miles, or 480 kilometers. It was also understood to have passed other evaluations such as a thermal stability test.
“The company is differentiated from existing firms since it developed an actual product rather than a laboratory theory,” said an investment banking industry source.
SES is not the only player that develops solid-state batteries. Ford Motor-backed solid-state battery developer Solid Power Inc. of the US is another industry leader.
SK INNOVATION, SOLID POWER TO JOINTLY DEVELOP, PRODUCE
South Korea’s SK Innovation Co. signed an agreement with Solid Power on Oct. 28 to develop an all-solid-state battery applied with silicon anode materials. The battery will increase mileage to 930 kilometers from 700 kilometers.
Cooperation between automakers and battery producers is growing. QuantumScape Corp., a US major solid-state battery maker, joined forces with Volkswagen earlier. Volkswagen poured $100 million into the partner in March, raising its total investment to $300 million. Global investment in battery startups has reached about $2 billion so far with half injected to QuantumScape, according to consulting firm AlixPartners.
Toyota Motor Corp. is developing its own solid-state batteries as it is investing 1.5 trillion yen ($13.2 billion) in EV batteries by 2030.
The Japanese carmaker aims to halve automobile production costs by developing cars and batteries together. It targets a rollout of EVs equipped with solid-state batteries by the first half of the 2020s as previously planned.
PROBLEMS TO SOLVE
Despite growing hopes for solid-state batteries, the battery industry needs to solve various issues ahead of mass production.
Investors doubt if QuantumScape has enough technologies to resolve the issues. Its share prices on Oct. 27 closed at $23.44, a mere one-fifth of its peak of $131 hit in December last year, due to short-selling.
“Solid-state batteries are more stable with higher energy density than lithium-ion batteries. However, it is still unclear whether mass production will be successful. It is also doubtful if mass production will enhance price competitiveness,” said an industry source.
To begin mass production, the industry needs to solve technical issues such as charging in a low-temperature environment and improving the electrical conductivity of electrolytes. It is also key to lower the prices of solid electrolytes.
South Korea’s battery makers – LG Energy Solution Ltd., SK On and Samsung SDI Co. – aim to start mass production of solid-state batteries around 2030. They are trying to bring it forward, but analysts say that might not be easy.
BMW CEO Oliver Zipse said he was skeptical about how fast mass production of the batteries can take place.
Lithium-ion batteries’ performance and price competitiveness are expected to improve further when solid-state batteries are mass produced. The use of other energy sources such as hydrogen is also predicted to increase. Automakers may not need as many solid-state batteries.
Solid-state batteries may be used only for high-performance cars or personal air vehicles (PAVs) even after mass production, some experts said.
“Solid-state batteries will have to fiercely compete with other energy sources,” said SNE Research CEO Kim Kwang-joo.
Write to Il-Gue Kim and Byung-Uk Do at black0419@hankyung.com Jongwoo Cheon edited this article.