“This breakthrough development translates into a remarkable improvement in cell-core energy density, reaching 2,000Wh/L in batteries and approximately 1,700Wh/L in full-size EV batteries – more than double the performance of current state-of-the-art technologies,”

“Sienza’s 3D pure silicon anode has demonstrated an average gravimetric capacity of 2,941 mAh/g,” Professor Gharib said. “This means that for every gram of silicon, our batteries can store 2,941 milliampere-hours of electricity, significantly higher than the industry standard for graphite, with a gravimetric capacity of 372 mAh/g.”

Aside from completely avoiding the cobalt issue, Sienza notes that its manufacturing process does not rely on the solvent-based coating systems deployed for producing conventional lithium-ion batteries. Sienza cites one commonly used solvent in particular, N-methyl-pyrrolidone (NMP).

  • @surewhynotlem@lemmy.world
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    43 months ago

    230 miles on 98 kWh capacity = 0.4260 kWh per mile

    Vs

    300 miles on 131 kWh capacity = 0.4366 kWh per mile

    Is that significant? Eh… But at the same time I wouldn’t throw 500 lb weights in the back and drive around claiming it didn’t impact performance.

    • @weew@lemmy.ca
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      53 months ago

      But at the same time I wouldn’t throw 500 lb weights in the back and drive around claiming it didn’t impact performance.

      Yeah, you put it in the driver’s seat

      Ayyyoooooooo