The future of
clean industrial heat
Our mission is to deliver decarbonised high-temperature heat for industry.
Energy storage is crucial to converting intermittent renewable energy to reliable, efficient and cost-effective clean heat. We’re proving we have the best solution to deliver it.
How SiBox® creates heat
SiBox® is the culmination of over a decade of research and development by 1414 Degrees in silicon based latent heat thermal energy storage.
By harnessing the high temperature capabilities of silicon, the SiBox storage material, called SiBrick™, can convert renewable electricity to zero-carbon heat for industries requiring temperatures above 800°C.
The benefits of SiBox
SiBox can provide reliable, clean heat for industry. Our storage media has high energy storage density, which means it provides consistent high-temperature heat, with a smaller footprint, without need for constant power input – making it a cost-effective solution to replace fossil fuels.
How SiBox can be applied
1414 Degrees’ silicon storage – SiBrick – is the most advanced technology to replace fossil fuels at temperatures above 800°C degrees. This is a requirement of minerals processing and manufacturing industries –including the cement, alumina and iron and steel sectors.
Our partners
Latest news
SiNTL™ Targets Drone and UAV Battery Market
SiNTL™ Advances Toward 600 mAh/g as 14D Targets Drone and UAV Battery Market 1414 Degrees is preparing to engage with the drone and unmanned aerial vehicle (UAV) battery supply chain as the first commercial target market for SiNTL™, our silicon nanoparticle battery...
Advancing Aurora and SiNTL: $2.69m placement secured
1414 Degrees has secured firm commitments to raise $2.69 million (before costs) through a placement to sophisticated and institutional investors. The funding will support near-term commercial and technical milestones across the Company’s integrated clean energy...
SiNTL Silicon Anode Program Ahead of Schedule
We have surpassed a key performance milestone in our silicon nanoparticle battery materials program, achieving 530 mAh/g specific capacity in laboratory testing. The result exceeds the previously announced 500 mAh/g target and places us ahead of schedule toward our...
Contact
Western Plant, Door 1,
1 Watts Road, Tonsley, 5042
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