Research Topics
Solid-state batteries
Solid-state batteries represent the next frontier in energy storage technology, distinguishing themselves by using a solid electrolyte instead of the traditional liquid electrolyte. This shift promises enhanced safety, as the risk of leakage and flammability is reduced. Additionally, they offer potential advantages in energy density and longevity. Despite their promise, manufacturing complexities and material challenges remain key hurdles to widespread adoption.
Wide-temperatue operable batteries
Wide-temperature operable batteries are engineered to function efficiently across an expansive temperature range, addressing performance issues prevalent in conventional batteries exposed to extreme temperatures. These batteries ensure consistent energy delivery and prolonged life, even in harsh conditions. As a result, they are especially valuable in specialized settings such as aerospace, military, and certain industrial applications. Their unique design underlines the growing need for versatile and resilient energy storage solutions.
Manufacturing design
The advancing manufacturing design of lithium-ion batteries underscores the integration of cutting-edge techniques and materials to enhance battery performance, safety, and longevity. As technology progresses, these designs prioritize precision, scalable production methods, and eco-friendly practices, catering to an increasing global demand. Innovations in this field not only refine battery quality but also drive down costs, making sustainable energy storage more accessible and efficient.
Multivalent-ion metal batteries
Multivalent-ion metal anode batteries utilize anodes made from metals that can accommodate multiple electron transfers per ion, such as zinc, magnesium, calcium, or aluminum. This capability offers the potential for higher energy densities compared to conventional lithium-ion batteries. The exploration of these multivalent systems heralds a promising future for energy storage, with the potential for enhanced capacity and cycle life.
Recycling & Upcycling
Recycling and upcycling of lithium-ion batteries are pivotal processes addressing both environmental concerns and material reuse in the energy storage devices. Recycling facilitates the recovery of valuable metals and components, minimizing waste and dependency on virgin resources. In contrast, upcycling elevates this concept by repurposing extracted materials into new, often higher-value, products and applications, championing a more circular and sustainable economic model.