100g Battery Grade Lithium Magnesium (Mg 10 wt%) Alloy Foil 50 mm W x 100 um T for Battery Research,  MSE Supplies

300g Battery Grade Lithium Magnesium (Mg 10 wt%) Alloy Foil 50 mm W x 100 um T for Battery Research


  • $ 4,75995
  • Save $ 57200

Product Details:

Lithium Magnesium alloy is a trending anode material for lithium ion batteries, lithium sulfur batteries and solid-state lithium metal batteries due to its high power density, light weight and less volume expansion. It can serve as a solid electron/ion dual‐conductive Li host during cell cycling which prevents interface deterioration or volume collapse.

MSE Supplies also can supply Li/Al, Li/B, Li/Si and Li/In alloys for battery research. Please contact us at to discuss your need. 

Never open the package in air. Store in Ar filled glove box with moisture less than 2%RH.  

Shipping and handling: This material is classified as a hazmat and requires special packaging and shipping to comply with  regulatory requirements. Please contact us for specific details with shipping and handling.

Product is packaged in a dry room. There may be residual oxygen that will be released when the package is opened.


Due to the nature of the material, please inspect the product upon arrival. MSE Supplies will be only responsible for the manufacturing defects only after 1 week past delivery. It is normal to see black spots on the lithium products. You can use a nylon brush/stainless steel scalpel to clean the surface. 

The product was manufactured in dry room. It may contain some residual oxygen which can cause the temporary oxygen level increase when opened in glove box.


Product SKU# SOBR146
Pack 300 g per roll


Li+Mg >99.9 wt%

Appearance  Silver white

Overall Dimensions
(Width x Thickness)

50 mm x 100 um (Customizable)
Mg 10 wt% (Customizable)


≤100 ppm

Ca ≤150 ppm
K ≤100 ppm
Fe ≤20 ppm
Si ≤100 ppm
Cl ≤60 ppm
N ≤300 ppm

Keep in Ar filled glove box with moisture level less than 2%RH



1. Lithium–Magnesium Alloy as a Stable Anode for Lithium–Sulfur Battery, Adv. Funct. Mater. 201929, 1808756

2. An Electron/Ion Dual‐Conductive Alloy Framework for High‐Rate and High‐Capacity Solid‐State Lithium‐Metal Batteries, Adv. Mater. 201931, 1804815