How Silicon Anode Batteries Could Transform Electric Vehicles

How Silicon Anode Batteries Could Transform Electric Vehicles

The 2024 Mercedes-Benz EQG will feature silicon anode technology.Image: Mercedes-Benz

The lackluster energy density of batteries is one of the biggest obstacles to widespread vehicle electrification. Current lithium-ion batteries used in most electric vehicles usually are a significant percentage of an EV’s weight. The Ford F-150 Lightning weighs around 6,500 pounds. The electric pickup truck’s battery weighs 1,800 pounds alone. The large size of batteries increases costs and reduces range. However, silicon anode batteries could drastically change the nature of electrically-powered transportation.

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Silicon anode batteries replace the graphite anode of a lithium-ion battery with silicon. Amprius Technologies claims that its silicon anode batteries will have an energy density of 450 watt-hours per kilogram. Conventional lithium-ion batteries have an energy density of 270 Wh/ kg. CNBC looked into challenges holding back the revolutionary concept and the possibilities it could unlock in the near future.

How Silicon Anode Batteries Will Bring Better Range To EVs

The primary issue with silicon anode batteries is cracking. The battery swelling over only a few charge-discharge cycles causes the cells to crack. Though, development at multiple companies is aimed at resolving the problem. Porsche and Mercedes have invested in silicon anode ventures. The 2024 Mercedes-Benz EQG will be the automaker’s first EV to feature silicon anode technology.

It’s difficult not to be drawn to the potential of silicon anode batteries. Yi Cui, a energy science professor at Stanford University, told CNBC that the technology could double the range of existing EVs. Also, Amprius claims its batteries can charge to 80 percent in six minutes. Manufacturers would be able to shrink battery packs and use them in a wider variety of vehicles, like airliners and freight trucks. Most importantly, silicon is one of the most abundant elements in the world.