Solid-state Lithium batteries: the next generation

Money is pouring into research into solid-state lithium batteries (SSBs) which promise to leapfrog existing lithium-ion battery technology.

A battery consists of three parts: a cathode, an anode, and the electrolyte. The cathode releases electrons which are then transported through the electrolyte and received by the anode. Current lithium-ion batteries use a graphite-silicon anode with a liquid electrolyte. Solid-state batteries replace the liquid with a solid electrolyte (SE), normally in a thin film — made from either an oxide, sulfide, a halide or a polymer.

Solid-State Battery

Metal-halides are gaining more attention due to their excellent compatibility toward oxide cathode materials, acceptable ionic conductivity and wide electrochemical stability. (Science Direct)

SSB Advantages

Solid-state batteries promise greater energy density, better performance at low temperatures, greater safety, faster charging, longer range, and longer battery life.

Enhanced thermal performance is expected to improve operation at low temperatures — a key weakness in cold climates. Safety is also improved by the solid electrolyte which is unlikely to leak if the battery casing is punctured — for example in a car accident — reducing the risk of a fire.

Anodes

There are still problems that have to be solved. A key stumbling block is the anode.

Lithium-metal anodes show promise but development has been plagued by dendrites which accumulate on the anode and rapidly reduce its effectiveness. Dendrites are also likely to cause a fire if they grow to the point that they pierce the barrier between the anode and the cathode.

Other developers have opted for silicon anodes but these present a different problem. Silicon is highly conductive, making it suitable for use in battery construction, but the silicon expands and contracts with each charging cycle, causing deterioration over time.

State of Progress

Toyota, one of the leading developers, has pushed back the planned introduction date for their new SSBs until 2028.

Another developer, California-based QuantumScape (NYSE:QS), seems to be making progress:

In January, Volkswagen announced successful testing on a solid-state battery developed by QuantumScape achieved more than 1,000 charging cycles and maintained 95% of its capacity. (The Guardian)

Acknowledgements

Yen’s Fall May Benefit Japan Firms – WSJ.com

TOKYO—As the yen finally buckles versus the dollar, Japan’s exporting manufacturers are sitting on potential operating-profit gains that could be worth billions of dollars on paper, likely triggering some higher earnings forecasts if current trends persist.

….Like many of Japan’s biggest companies, the big three auto makers—Toyota Motor Co., Honda Motor Co. and Nissan Motor Co.—are heavily exposed to exchange-rate fluctuations. Estimates by the three show that every ¥1 variation in the dollar exchange rate has an impact of ¥67 billion on their combined operating profit. That means the dollar’s gains since the central bank’s easing could notionally assist the three auto makers’ annual operating profit to the tune of ¥165 billion, or more than $2 billion at recent exchange rates.

via Yen’s Fall May Benefit Japan Firms – WSJ.com.