Reinventing manufacturing for better batteries

For decades the manufacturing process of batteries and its components has shown only incremental improvements to cost efficiency, energy efficiency and low yield rates. It requires a significant technology step to harvest new efficiencies in capex, opex, sustainability and new battery storage solutions. Advances in battery material science combined with experience from the semiconductor manufacturing industry now enable significant progress in electrode manufacturing, new battery concepts, solid state batteries and safer energy storage.

Several technology players have been attempting to establish and scale a dry electrode manufacturing process that overcomes the high energy demand, low reliability, low flexibility, high carbon footprint and use of toxic materials of today’s wet coating processes. The biggest advances though, are only possible by combining material preprocessing and new high speed additive manufacturing. Dry electrode printing reduces energy consumption and carbon footprint, eliminates all use of toxins and forever chemicals while delivering full scalability and high volume cost efficiencies. Dry printing of electrodes is the first step to printing complete batteries, in arbitrary shape and form, including SSB materials, eliminating metal foils and integrate inherent safety features – all at competitive high volume efficiency.