Company Description
Our battery technology could potentially increase power density and allow device manufacturers to make more powerful devices, use larger screens, or allow devices to operate longer between charges.We plan on developing solid-state hybrid batteries and transferring our battery technology from lab research to pilot-scale production. The solid-state hybrid batteries could potentially contribute to high energy density, fast charging, long cycle life, and low-temperature performance.We aim to lower the cost in terms of materials, batteries, and manufacturing lines.Our solid-state hybrid batteries are based on a hybrid cathode that couples super high loading with high energy and power density. Hybridizing electrolyte components and electrode components may bring attractive features. For example, the random stack of Li+/e- conductive LLAZO/C nanofibers can form a 3D framework structure, enabling homogeneous active materials and fast Li-ion and electron transport in all directions. We believe that the distributed liquid electrolyte and tangle long-chain polymer can further improve the ionic conductivity of the electrode, increase the contact interface between the electrolyte and the electrode, and enhance the electrode integrity.