Thank you!

Your quote has been successfully submitted!

For products requiring additional information, our team will contact you within 1 business day

Failed

There was an error submitting your quote. Please try again.

MSE PRO 1 kg Meshed Aluminum Foil (200mm W x 15um T) for High Performa– MSE Supplies LLC

Overstock Sale - Select Products 10% Off on Orders of $500 or More! Promo Code:

SAVING10

Shop Now
Menu

This product has been added to the cart.

1 kg Meshed Aluminum Foil (200mm W x 15um T) for High Performance Battery and Supercapacitor Research,  MSE Supplies

MSE PRO 1 kg Meshed Aluminum Foil (200mm W x 15um T) for High Performance Battery and Supercapacitor Research

SKU: BR0213

  • £31600
  • Save £3800



Product Details:

Aluminum foil is widely used as substrate (current collector) for cathode materials coating in Li-Ion battery research. The naturally formed oxide layer provides the resistance to corrosion and oxidation at high potentials. Aluminum has a good thermal and electronic conductivity when used as current collector.

This meshed aluminum foil is designed for high performance battery and supercapacitor research. It is manufactured by mechanical punching method and 17% lighter than aluminum foil with same thickness. It can improved the device power density (3.5~8.0%) due to the lighter weight and more active material loading. Other typical benefits are reduced internal resistance, better electrolyte infiltration and better coating adhesion which improves device rate capability and cycling performance. 

This meshed aluminium foil can be customized upon request, such as the thickness/width of aluminum foil, the meshed area width, pore size, pore density and the meshed pattern. Please contact us to discuss your needs. 

Specifications

Product SKU# BR0213
Pack Size
1 kg per roll
Material Al (≥99.9%)
Overall width 200 mm
Thickness 15 um
Pore diameter 15~20 um
Pore density 2000/cm2

Reference:

1. Development and costs calculation of lithium–sulfur cells with high sulfur load and binder free electrodes, J. Power Sources, Volume 224, 15 February 2013, Pages 260-268

2. Boosting the ultrastable Li storage performance in electron-sponge-like polyoxovanadates by constructing inorganic 3D structures, Inorg. Chem. Front., 2017, 4, 2012-2016