Inlyte Energy moves forward in development of a nearly 50-year old battery technology with ARPA-A award, recent acquisition of Beta Research and new funding by At One Ventures.
Inlyte Energy, the recipient of $8 million in seed funding, was founded by Dr. Antonio Baclig, who incubated the company as a 2021 Activate Fellow in partnership with Lawrence Berkeley National Lab. Since that time Inlyte has been on an upward trajectory—securing an ARPA-A award, acquiring Beta Research, being named to the 2023 Cleantech 50 to Watch and now receiving a funding boost from At One Ventures.
The company, which is located in the California Bay Area, aims to use the seed funding to develop the first generation of its grid batteries made with the most abundant materials: iron and table salt.
The 2022 acquisition of UK-based Beta Research moves Inlyte many steps closer to design and manufacturing, as the scientists at Beta originally developed a sodium metal halide battery more than 40 years ago and brought the technology to commercial readiness and manufacturing capacity. Beta Research has a pilot production line, with 30,000 square feet of manufacturing and testing facilities, which will enable Inlyte to begin manufacturing, once the optimized design is complete.
“The experience of the Beta Research team and their facilities give Inlyte a significant advantage compared to other battery startups in this space. They don’t need to find a pilot factory, get the tooling, or figure out how to manufacture,” said Laurie Menoud, founding partner at At One Ventures. “Inlyte’s ability to compete with lithium-ion on lifetime, round-trip efficiency, and of course upfront cost also gives them a significant opportunity in a market that’s exploding right now.”
The battery chemistry is sodium metal halide, which Inlyte says can “create an energy storage system with high efficiency, long lifetime, competitive energy density, excellent safety, and at an ultra-low cost”. An advantage the chemistry has over conventional lithium batteries is the ability to operate in extreme heat or cold, said the company.
The target market for Inlyte’s batteries is the diurnal energy storage market, with a storage duration of four to 10 hours. The company says this makes them appropriate for grid storage and other industrial applications.
“Conventional sodium metal halide batteries, made from nickel and salt, were developed for electric vehicles in the 1980s and ’90s but never made it down the cost curve,” said founder and CEO, Dr. Antonio Baclig. “At Stanford, I realized that by optimizing that design for the grid instead of for vehicles, and by using iron instead of nickel, we could drive the cost incredibly low. Inexpensive storage is what will truly make wind and solar a competitive total solution versus fossil fuels, not just in California but everywhere in the world.”
The sodium metal halide battery’s iron chemistry’s raw storage materials are Earth-abundant table salt and iron. Inlyte intends to use electrochemical measurements and materials characterization to study the sodium/iron chloride cells, isolate the factors that allow for long cyclability.
Once the company can scale manufacturing, Inlyte expects its batteries to have the lowest cost because the raw materials are common, inexpensive and locally available, thus avoiding sourcing from another country.
“At the end of the day, solutions for the climate crisis are beholden to economics for both companies and countries, and we would have chosen this design and these materials on that basis alone – but there are so many other benefits as well,” said Baclig.
The seed funding round is led by At One Ventures with participation from First Spark Ventures, Valo Ventures, TechEnergy Ventures, Climate Capital, Anglo American, and others.
The next step is for Inlyte to finalize its grid-optimized sodium metal halide design. The company also plans to engage with pilot customers in the coming months, with a goal of launching a manufacturing facility in the U.S. in the coming years, leveraging incentives from the Inflation Reduction Act.
