Lincdyne
Discover our breakthrough in battery technology: All-Solid-State Lithium Metal Batteries (ssLMB) and All-Solid-State Zinc-Air Batteries (ssZAB). Addressing key challenges of commercial lithium-ion batteries, our solutions overcome limited driving ranges, safety concerns, operational constraints, costly cathode materials, and supply chain risks.
Lincdyne’s Breakthrough All-Solid-State Battery Technologies
- Lincdyne’s all-solid-state Zinc-Air (ssZAB) and Lithium Metal Batteries (ssLMB) overcome all the challenges
High Energy Density
Energy density of 460~520 Wh/kg (capable of driving ~1000 km, 620 miles), as compared to ~250 Wh/kg (~500 km, 310 miles) for LIBs
Safety
Non-volatile, non-flammable, and non-explosive. All the components are thermally, mechanically, and chemically stable
Stable Supply Chain
Made of earth-abundant materials such as zinc, copper, and hydrocarbons. Conflict-free, inexpensive raw materials
Operating Excellence
Charging speed within 15 min, 6000 cycles, and operating temperature in the range of -50 °C (-58 °F ) ~ 80 °C (176 °F ) (14 to 40 °C for LIB)
Lincdyne’s Cathode Material
Copper phosphosulfide (CPS), a cutting-edge material developed by the LINCDYNE team, features a precise crystalline structure composed of Copper, Phosphorus, and Sulfur elements. CPS serves as a pivotal technology core, functioning as a cathode material in solid zinc-air batteries and solid lithium metal batteries. It offers exceptional attributes including high energy density and extended operational lifespan.
Lincdyne’s Solid Electrolyte Material
Chitosan-biocellulosics (CBCs) represent an innovative solid electrolyte core material synthesized using microbial technology. This advanced material enhances solid-state zinc-air batteries and solid-state lithium metal batteries by offering superior characteristics such as thermal/mechanical durability, reliable charge/discharge stability, and efficient ion conductivity.
