澳门威尼克斯人

Sodium-ion batteries - Power

Rich sodium resources are helpful to solve the major risk of lithium mines and can partially replace the lithium battery market in the future due to its long-term cost advantages.

High manganese iron nickel battery

By mixing a certain proportion of NCM material with LFMP, the balance of safety, performance, cost and manufacturing can be achieved.

Lithium metal batteries

Through the development of high-performance electrolyte technology, innovative lithium anode protection &semi-solid technology, achieving the lithium metal battery in high specific energy, long cycle and high safety.

Semi-solid state battery

For the safety issue of traditional lithium ion, gel semi-solid battery with higher specific energy and safety is developed based on the first-generation technology to improve the intrinsic safety of single cell penetration, hot box, crush, over charging, etc., and create semi-solid state battery products with high intrinsic safety attributes and market competitiveness.

Full solid state battery

Matching cathode and anode materials with high specific capacity to achieve high energy density and high safety.

Large cylindrical battery

Creating a cylindrical battery with high energy density, high safety, and long cycle.

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    Weight energy density>135wh/kg
    Volume energy density>280wh/L

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    Normal temperature cycle

    >2,000 cycles

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    Leading in mileage

    350KM driving range

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    Excellent rate discharge

    3C capacity retention ratio of 95%

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    Low-temperature performance

    Capacity retention ratio of 90% at -20 ℃
    Capacity retention ratio of 85% at -40 ℃

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    Weight energy density > 220 Wh/kg
    Volume energy density > 503 Wh/L

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    -9.5%

    Whole package cost
    Compared to the ternary system with the same volume energy density

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    +100km

    Driving Range
    Compared to LFP whole package

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    170%

    Overcharging
    120% of national standard

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    200℃

    Hot box
    Opening valve temperature of 155 ℃

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    +2

    Low-temperature performance
    Compared to LFP at -20 ℃

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    2.2C

    Fast chargeing

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    Weight energy density

    L-LMB≥400 Wh/kg
    H-LMB≥450 Wh/kg

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    Volume energy density

    L-LMB≥1200 Wh/L
    H-LMB≥1300 Wh/L

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    Cycle life at room temperature

    L-LMB ≥ 600 cycles @ 80%
    H-LMB ≥ 400 cycles @ 80%

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    High-performance electrolyte

    Electrolyte genes are improved to enhance lithium stability.

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    Lithium anode protection technology

    An original polymer protective layer is built to homogenize lithium deposition.

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    Semi-solid state technology

    Solid state electrolyte safety coating and in-situ polymeric electrolyte technology are adopted used to build up the super safety line.

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    Weight energy density

    270Wh/kg

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    High volume energy density

    655Wh/L

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    Leading in mileage

    The completedriving range> 900KM, with less cell usage under the same range conditions, reducing the whole package volume.

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    High safety

    There is no problem in the intrinsic safety of individual cell after penetration, hot box, crush, and process tests.

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    Long life cycles

    >1,400 cycles

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    Weight energy density

    350 Wh/kg

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    Volume energy density

    720 Wh/L

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    Conductivity at room temperature

    10mS/cm

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    Thickness of electrolyte membrane

    Minimize 15 μm

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    Conductivity of electrolyte membrane

    2mS/cm

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    Weight energy density

    ≥300Wh/kg

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    Volume energy density

    ≥830Wh/L

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    Ultra-low internal resistance

    Full tab design, DCR ≤ 1.7m Ω

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    High safety

    Thermoelectric separation, high-flux explosion-proof design, no heat spread throughout the package.

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    Long life cycles

    Satisfy the demand for 15 years working life

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    Fast charging

    10-80% SOC, fast charging time ≤14min.

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