• By The Financial District

Amprius Delivers 1st Batch Of World's 'Highest Density' Batteries

The California-based Amprius has shipped the first batch of what it claims are the most energy-dense lithium batteries available today.


Photo Insert: Amprius says the batteries' impressive performance is due to its silicon nanowire anode technology.



These silicon anode cells hold 73 percent more energy than Tesla's Model 3 cells by weight, and they take up 37 percent less volume, Loz Blain reported for New Atlas recently.


Tesla's current Model 3 cells serve as a state-of-the-art comparison, and hold around 260 Wh/kg and 730 Wh/l, according to Enpower.



The new Amprius cells are a significant step up, both in specific energy and energy density, holding 450 Wh/kg and 1,150 Wh/l – and the company says that the undisclosed number of cells just delivered to "an industry leader of a new generation of High-Altitude Pseudo Satellites" give it bragging rights for "the highest energy density cells available in the battery industry today."


Amprius says the batteries' impressive performance is due to its silicon nanowire anode technology.


All the news: Business man in suit and tie smiling and reading a newspaper near the financial district.

When you charge up a lithium-ion battery, you're effectively pulling an electron off each lithium atom sitting happily at the cathode, and moving them across to the anode via external wiring, since electrons can't pass through the electrolyte or separator between the anode and cathode.


Their negative charge pulls the positively-charged lithium ions across through the electrolyte and separator, where they each find an electron and become embedded in what's typically a graphite lattice at the anode.


Business: Business men in suite and tie in a work meeting in the office located in the financial district.

Amprius has replaced that graphite lattice with silicon nanowires. Silicon can store some 10x more lithium than graphite, but it tends to swell and crack, drastically reducing cell life.


Amprius says that when you form the silicon into porous nanowires, arranged as a kind of forest of longer wires with shorter ones in between, the silicon is able to tolerate swell and resist cracking, extending the life of the cell to the point where silicon anodes can become a competitive technology.


Science & technology: Scientist using a microscope in laboratory in the financial district.

The company says the silicon nanowires are rooted right into the substrate of the anode, so conductivity (and thus power) is high. It says the cell cycle life is "excellent" and "continually improving," although it doesn't put any numbers on it, and it also says the anode is the only part of the battery that changes; the rest can be produced using existing manufacturing methods and components.



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