NEO Battery Materials Ltd. is pleased to announce that it has received a silicon anode prototype sample order from a major U.S.-based solid-state electrolyte developer to evaluate the compatibility of the two parties' respective materials. The Company has additionally signed two additional NDAs, which include a U.S.-based electrode material [...]
NEO Battery Materials Ltd. is pleased to announce that the Company has upscaled the capacity of production from the pilot plant to a semi-commercial scale facility for silicon anode materials manufactured through NEO's proprietary nanocoating process. NEO's semi-commercial plant project is now finalized to produce 120 tons per year, and this is a [...]
NEO Battery Materials Ltd. is pleased to announce that the Company has received three additional prototype requests by global-tier battery materials and metals manufacturers and an automotive company. This follows the first samples of NEO's silicon anode prototype sent. Mr. Spencer Huh, President and CEO of NEO, commented, "Our proprietary Si anode [...]
NEO Battery Materials Ltd. is pleased to provide updates on the pilot plant facility and developments on the construction of the facility. Upon discussion between management, scientific advisors, and the Company's engineering personnel, the construction of the pilot plant has been finalized to be located in South Korea. Currently, three locations [...]
NEO Battery Materials Ltd. is pleased to announce that the first prototype of silicon anode active materials has been successfully produced, and samples have been sent to NDA partners for full cell evaluation and electrochemical characterization. Spencer Huh, President and CEO of NEO, commented, "The first working set of NEO's proprietary silicon [...]
NEO Battery Materials Ltd. is pleased to announce that a new patent has been filed regarding NEO's proprietary process of manufacturing silicon anode active materials. As of today, the Company retains five patents that have been issued and applied. This patent will extend the protection related to the Si nanocoating process by the single-step [...]
NEO Battery Materials Ltd. is pleased to announce that it has applied for the OTCQB® Venture Market and full eligibility through the Depository Trust Company for electronic settlement and clearing of its common shares in the United States. NEO Battery Materials is currently trading on the OTC Pink Current under the symbol NBMFF and will continue to [...]
Dr. J. H. Park, Director and Chief Scientific Advisor of NEO Battery Materials Ltd., is pleased to provide details on NEO's innovation utilizing modified carbon nanotubes as a new material to manufacture long-lasting, low-cost and mechanically durable silicon anode active materials. CNTs are theoretically known to retain similar electrical [...]
NEO Battery Materials Ltd. is pleased to announce it has entered into a second licensing agreement with Yonsei University-Industry Foundation in South Korea. NEO will be granted an exclusive worldwide license for the patent regarding silicon anode nanocoating technology for lithium-ion batteries. Name of Invention Patent No. / Registration No. 1 [...]
NEO Battery Materials Ltd. is pleased to announce it has entered into a MOU with Ferroglobe Innovation, a subsidiary of NASDAQ-listed Ferroglobe PLC, one of the world's leading suppliers of silicon metal, silicon-based and manganese-based specialty alloys and ferroalloys. The two companies entered into a non-disclosure agreement in April and have [...]
NEO Battery Materials Ltd. is pleased to provide a detailed follow up regarding the progress of NEO's pilot plant for its proprietary silicon nanocoating technology. Along with Dr. J. H. Park, Director and Chief Scientific Advisor of NEO, and Mr. S. J. Hwang, Member of the Scientific Advisory Board, the Company's directors, scientific advisors, and [...]
NEO Battery Materials Ltd. is pleased to announce that, in the latest test, NEO's silicon nanocoating technology has successfully achieved to demonstrate effectiveness on low-cost, metallurgical grade silicon particles of micron-size , enabling a 6-minute charge/discharge level without major capacity loss in the cell. Following the previous [...]