NEO Battery Appoints Ex-Samsung Large-Scale Cell Expert, Dr. Jun Sik Jeoung, as Senior Scientific Advisor of Commercialization & Cell Development

Core Viewpoint - NEO Battery Materials Ltd. has appointed Dr. Jun Sik Jeoung as Senior Scientific Advisor of Commercialization & Cell Development to enhance its capabilities in silicon anode materials for lithium-ion batteries, particularly during a critical scale-up phase [1][4]. Company Overview - NEO Battery Materials is a Canadian technology company focused on developing low-cost silicon anode materials for lithium-ion batteries used in electric vehicles, electronics, and energy storage systems [6]. - The company aims to become a global leader in silicon anode materials, leveraging a patent-protected manufacturing process that enables longer-lasting and ultra-fast charging batteries compared to existing technologies [6]. Appointment of Dr. Jun Sik Jeoung - Dr. Jeoung holds a Ph.D. in Materials Science and Engineering and has over 17 years of experience in lithium-ion battery R&D, scale-up, and production at major automotive and battery cell manufacturers [2][3]. - His previous roles include leading the development of BMW i3 EV's 94Ah automotive cells at Samsung SDI and serving as Vice President of R&D at EoCell, where he improved cell energy density and safety [3]. Role and Responsibilities - In his new role, Dr. Jeoung will focus on designing and manufacturing large-scale batteries for commercial material qualification and providing insights for silicon anode manufacturing [4]. - His expertise is expected to be crucial as NEO progresses towards Phase I expansion to 240 tons production capacity [4]. Market Position and Strategy - Dr. Jeoung emphasized the importance of silicon anode integration for achieving high energy density and rapid-charging capabilities in lithium-ion batteries, which aligns with NEO's strategic goals [5]. - The company is positioned to secure a unique market position by demonstrating high-performance lithium-ion cells utilizing its silicon materials [5].