DESC0025064

ARK Power Technology is collaborating with POSCO and other specialty material suppliers to advance development of versatile carbon nanofiber (CNF) materials for electrified transportation applications, with a focus on autonomous aerial vehicles (AAVs). CNF Electrodes for Lithium-Sulfur Cells: Our initiative involves the production of lightweight CNF cathode and anode substrates, utilizing functionalized carbon nanofibers. These advancements facilitate the construction of high-performance lithium-sulfur (Li-S) cells. The superior conductivity of CNF electrodes allows for the elimination of metal foils, significantly reducing battery weight and enabling the development of solid-state Li-S batteries. While lithium-ion batteries (LIBs) possess a theoretical gravimetric energy density of approximately 800 Wh/kg, Li-S batteries offer a markedly higher value of approaching 2,600 Wh/kg. Our non-optimized laboratory cells have already achieved approximately 500 Wh/kg, indicating a potential reduction in mass for energy storage by approximately 50% compared to LIBs. Li-S batteries also offer enhanced safety features, are more environmentally friendly, and obviate the need for critical energy materials such as cobalt, nickel, manganese, and natural graphite, all at a substantially lower cost. CNF Flexible and Adaptive Battery Modules: We propose developing interchangeable CNF-based cell packaging solutions that can be seamlessly integrated within AAVĺs power distribution. This approach optimizes space utilization, weight distribution, and ensures ruggedized, durable circuit formation. The moldable nature of CNF, which possesses approximately half the density of aluminum and offers adjustable directional strength, enables a reduction of up to 50% in mass related to battery housing. Furthermore, the integration of sensors into CNF materials used as structural components enhances vehicle optimization. The inherent flexibility of CNF composites allows for real-time adjustments of mechanical elements and electrical distribution pathways, leading to improved performance. The insights garnered through adhering to stringent aerospace engineering standards for AAVs will expedite advancements in the autonomous electric vehicle sector.