Dangsheng Technology said on the interactive platform that the company's all-solid-state battery key material technology and customer development are progressing smoothly. In terms of all-solid cathode materials, the performance of the company's all-solid-state special ultra-high nickel multi-material in all-solid-state batteries is close to the level of liquid batteries, which can meet the energy density requirements of more than 400 Wh/kg batteries, far exceeding the current energy density level of liquid batteries. Ultra-high capacity lithium-manganese-based materials can make the energy density of all-solid-state batteries reach 500Wh/kg, leading the performance industry. In terms of solid electrolytes, the company has a comprehensive layout of different technical routes such as sulfides, oxides, and halides, and has pioneered the development of a novel chloroiodine composite sulfide electrolyte, which significantly reduces interface pressure while maintaining high ionic conductivity, and effectively solves the problem of solid interface contact. The product has already entered the batch verification stage for leading customers. In the first three quarters of 2025, the company achieved batch supply of key materials for all solid-state batteries of 20 tons or more.

Dangsheng Technology said on the interactive platform that the company's all-solid-state battery key material technology and customer development are progressing smoothly. In terms of all-solid cathode materials, the performance of the company's all-solid-state special ultra-high nickel multi-material in all-solid-state batteries is close to the level of liquid batteries, which can meet the energy density requirements of more than 400 Wh/kg batteries, far exceeding the current energy density level of liquid batteries. Ultra-high capacity lithium-manganese-based materials can make the energy density of all-solid-state batteries reach 500Wh/kg, leading the performance industry. In terms of solid electrolytes, the company has a comprehensive layout of different technical routes such as sulfides, oxides, and halides, and has pioneered the development of a novel chloroiodine composite sulfide electrolyte, which significantly reduces interface pressure while maintaining high ionic conductivity, and effectively solves the problem of solid interface contact. The product has already entered the batch verification stage for leading customers. In the first three quarters of 2025, the company achieved batch supply of key materials for all solid-state batteries of 20 tons or more.