IN-HOUSE R&D - R&D Module

 

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R&D Team

Blumoti regards battery R&D as its core strategy. Its R&D department brings together more than 70 professional R&D talents, divided into 7 specialized R&D teams. The team is deeply engaged in cutting-edge technologies in the battery field, polishes every product with a rigorous attitude, and drives technological advancement in the battery manufacturing industry through continuous innovation, becoming the core engine for Blumoti's steady development.

 

Battery Voltage

Blumoti's single cell hits a max 4.7V. Its rated voltage hinges on the electrochemical potential difference of electrodes, enabled by high-potential cathode and high-voltage-resistant anode matching. Our premium core material suppliers deliver compatible, sufficient, strictly controlled materials to support stable mass production.

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Battery Discharge Rate

Blumoti's high-rate batteries achieve a max 70C discharge via materials-electrolyte-structure synergy. Centered on accelerating ion transport and reducing internal resistance, they feature nano-cathodes, custom electrolyte (stable SEI film), and multi-tab lamination, enabling stable high-C discharge for UAVs and emergency power supplies.

 

Low-Temperature Batteries

Blumoti's low-temperature batteries are tailored for cold environments via pouch and tab designs: -40℃-resistant composite aluminum-plastic pouch (excellent airtightness) with buffer layer prevents embrittlement; multi-tab symmetrical nickel-plated copper strips reduce resistance. Together, they ensure cell integrity and over 85% capacity at -40℃.

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BMS

BMS

Blumoti's customized BMS, the core of cell intelligent control, real-time monitors voltage, current and temperature, triggers protections against overcharging/over-discharging/overcurrent/overtemperature, enables active balancing, estimates SOC/SOH, optimizing charging-discharging to boost safety and cycle life for UAVs, energy storage.

 

Semi-Solid State Batteries

Blumoti's semi-solid state batteries focus on core material innovation. The separator layer uses high-performance colloidal separator materials, combined with homologous colloidal positive and negative electrode materials. This design enhances the interface compatibility between electrodes and the separator layer, improves ion transport efficiency, balances battery energy density and cycle stability, and gives full play to the technical advantages of semi-solid state batteries.

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