Casimr Microsparc Nanostructure Technology Taps More Than Chemical or Nuclear Energy
By Brian Wang
Sonny White and the Casimir Team have created nanostructures to get microwatts of continuous energy (could last centuries or millenia) by leveraging the Casimir force. In Casimr Energy there are fewer virtual particles between plates with a tiny gap which creates a force by having more virtual particles outside it. The first-generation microsparc delivers performance comparable to a small ceramic rechargeable battery or a solar panel no larger than your fingertip - but without the need for external charging or light.
They are building multi-layer Casimir chips and using advanced die-stacking to pack up to 100x more power into the same compact footprint. This should get towards milliwatts and then watts.
Mass production will drive costs down for $100/watt and eventually $10 per watt. This will make Casimir Microsparcs competitive for the consumer electronics market. But they will have constant power without chemicals.
The first products will be hybrid power systems designed to work alongside existing batteries.
By pushing the limits of performance at the chip level with denser multi-layer architectures and more advanced die-stacking techniques, we significantly increase power density per device.
When manufactured at scale, these performance gains unlock the economics needed to deliver cost-effective, high-power systems.