SAN JOSE, Calif.--(BUSINESS WIRE)--Lyten, a supermaterials application company and the leader in lithium-sulfur battery technology, today announced it is consistently surpassing 90 percent yield from its automated battery production line, confirming the manufacturability of its lithium-sulfur battery utilizing a sulfur cathode and lithium metal anode.
The lithium-sulfur manufacturing performance has been achieved utilizing standard lithium-ion manufacturing equipment and processes. The conversion of lithium-ion equipment to produce lithium-sulfur batteries in Lyten’s pilot facility required 6 weeks and less than 2% of the total capital cost. This confirms Lyten’s ability to rapidly scale by converting existing Li-ion gigafactories to lithium-sulfur with minimal cost and time.
“Lyten now has demonstrated that lithium-sulfur can be built in standard cylindrical and pouch formats, can be scaled to automated manufacturing, and can be done on the same equipment and processes already being used around the globe to manufacture legacy lithium-ion,” said Dan Cook, Lyten CEO and Co-Founder. "The result is a significant reduction in the manufacturing scale up risk for a locally sourced, locally manufactured battery that can leapfrog the performance and cost of existing lithium ion and future solid-state batteries.”
Lyten’s lithium-sulfur battery chemistry utilizes no NMP (N-methyl-2-pyrrolidone) in the cathode manufacturing process, eliminating the potential health, safety, and environmental impacts of the highly toxic solvent standard in today’s lithium-ion batteries. Additionally, the lithium-sulfur battery cell has proven to be highly tolerant of metallic contamination, significantly reducing the capital equipment and operational costs associated with preventing metal contamination in today’s leading battery chemistries, namely NMC and LFP.
“To achieve mass market adoption, lithium-sulfur must be able to be manufactured at enormous scale and at a price immediately on par or better than today’s already scaled up lithium-ion batteries. The complete elimination of NMP and ability to tolerate metallic contamination and defects creates a cell that is highly manufacturable. Lower cost production that is better for the environment is a win every way you look at it,” added Celina Mikolajczak, Chief Battery Technology Officer at Lyten.
Lyten’s lithium-sulfur battery contains no nickel, cobalt, manganese, or graphite in the cathode and anode, enabling an entirely locally sourced and manufactured battery. Lyten expects to achieve 98%+ yields at scale and will begin delivering commercial lithium-sulfur cells for non-EV customers in aerospace and government applications in 2024 from its San Jose pilot production facility. Lyten is executing engineering and design, procuring equipment, and evaluating locations to rapidly scale up lithium-sulfur manufacturing to meet growing interest from EV, trucking, space, aerospace, and government customers.
About Lyten
Lyten is a supermaterial applications company. Lyten’s proprietary processes permanently sequester carbon from methane in the form of 3D Graphene and utilize the tunable supermaterial to develop decarbonizing applications. Lyten is currently developing and commercializing next-generation lithium-sulfur batteries for use in the automotive, aerospace, defense, and other markets; a next-generation polymer composite that can reduce the amount of plastic used by up to half while maintaining structural and impact strength; and next-generation sensors that significantly increase detection sensitivity and selectivity for use in automotive, industrial, health, and supply chain applications.
Lyten, founded in 2015, is led by a group of experienced executives from across Automotive, Energy, Batteries, Semiconductors, Manufacturing and Defense. The company lists more than 415 patents granted or pending and is currently manufacturing Lyten 3D Graphene material and its applications in San Jose, California.