1414 Degrees’ energy storage technology can deliver clean heat and power for a more sustainable planet.
Our proven technology is the key to providing clean heat for industry and clean energy to stabilise the grid.
Our technology
Our silicon-based thermal energy storage solutions safely and efficiently store renewable electricity as latent heat.
In a demonstration module, it’s been shown our storage technology can produce up to 900◦C hot air, proving its potential as a gas replacement technology for high-temperature industries.
How we know it works
Our demonstration module – SiBox® – proves we have one of the most advanced solutions to decarbonise high-temperature industry and shows it can help achieve other net zero goals too.
SiBox is the complete energy storage system, where we installed and tested our leading-edge storage technology – SiBrick®.
What it can be used for
Our technology can be used to make industrial processes more sustainable by providing reliable and consistent clean heat and power.
Long duration energy storage can also help stabilise the energy grid and high-temperature heat can be used to produce hydrogen.
Our partners
Latest news
Aurora Energy Project update
16 June 2022 Yesterday we executed agreements with Vast Solar to create a joint venture at our Aurora Energy Project by way of a sale of 50% of our ownership of the shares in Silicon Aurora Pty Ltd for $2.5 million. The shares will be purchased by a wholly-owned...
Commencement of Connection Approval Process for Aurora
22 May 2022 Following confirmation of primary technical inputs, 1414 Degrees (ASX: 14D) has today executed a work order with ElectraNet (the South Australian transmission network service provider) to commence the Generator Performance Standard (GPS) study for the...
March 2022 Quarterly Activity Report
Highlights: Successful completion of SiBox demonstration module design and external validation modelling All major equipment specifications finalised and site preparation milestone approvals received from funding partner Woodside to now proceed with next phase of...