High-performance LTO anode material with carbon coating (LTO-Black) or non-coated (LTO-White). Offers ≥150mAh/g capacity, ≥92% initial efficiency, and ultra-long cycle life for EVs and energy storage systems.

High - purity PVDF binder Kynar, with over 99.5% purity, a thermal decomposition temperature of 410℃, and a viscosity of 1500 MPa·s, is compatible with the NMP solvent system. PVDF binder has low moisture and high binding strength, and is suited to slurry systems of high - nickel ternary and lithium iron phosphate cathodes. It's a ready - to - use material packaged in 1kg aluminum foil bags.

Lithium - ion battery anode water - based binder SBR 53%, Styrene - Butadiene Rubber with 49% total solid content and 142mPa·s Brookfield viscosity. Its small - molecule linear structure improves electrode adhesion. 1kg bottles meet the bonding needs of graphite anodes and copper foil, supporting high - stability battery manufacturing.

High carbon graphite MCMB anode material for lithium - ion batteries, featuring 340mAh/g initial discharge, 94.3% first - cycle efficiency, 1.211g/cm³ tapped density, 99.96% fixed carbon purity, suitable for power and cylindrical batteries, with samples available, aiding high - rate, long - life battery development.

The LLZTO pellet features a cubic garnet structure with 0.75×10⁻³ S/cm ionic conductivity and ≥5.10g/cm³ density. Designed for all-solid-state lithium batteries, it enables high-energy-density (>500Wh/kg) and ultra-safe designs by replacing flammable liquid electrolytes.

The AOT-PETAF composite foil combines 8μm ultra-thin PET substrate with 99.35% purity aluminum coating, delivering 240MPa tensile strength and 40MΩ anti-shorting resistance. Ideal for high-energy 4680 cells and solid-state batteries, it reduces thermal runaway risks by 60% vs traditional foils.

High-efficiency YP-50F coconut-derived activated carbon for supercapacitors. Optimized 1600 m²/g surface area, 0.7 cm³/g pore volume, and 100mΩ resistance. Ideal for low-cost, high-reliability energy storage.

MS-PMT-1 is a P2-type Nickel Manganeselayered oxide cathode material for sodium-ion batteries, delivering 117.31mAh/g specific capacity at 0.1C (4.25-2.0V) with 95% initial efficiency. Featuring a high tap density (1.586g/cm³) and optimized particle size distribution (D50=10.47μm), it enables high-energy-density battery designs for EVs and grid storage.

This Sodium Carboxymethyl Cellulose (CMC) powder is engineered for lithium battery anode slurries, offering 7458mPa·s viscosity (2% aqueous solution) and 99.7% purity to prevent active material sedimentation. With a substitution degree (DS) of 0.86 and pH 6.77, it ensures stable slurry dispersion, improving electrode uniformity and battery longevity.