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 Aqueous Conductive Graphene Slurry, 1kg– MSE Supplies LLC

Free Shipping on MSE PRO Online Orders of $500 or More! U.S. Orders Only * Offer Excludes Hazmat Shipments *

Menu

This product has been added to the cart.

MSE PRO Aqueous Conductive Graphene Slurry, 1kg - MSE Supplies LLC

MSE PRO Aqueous Conductive Graphene Slurry, 1kg

SKU: CM9015

  • $ 18995



MSE PRO™ Aqueous Conductive Graphene Slurry

Applications:

The Aqueous Conductive Graphene Slurry, is a highly conductive battery dispersion made from graphene nanoplatelets. It is free from metal ions and can be used as a conductive agent to enhance the charge-discharge capacity of batteries. This versatile water dispersion can be applied to various types of batteries such as Lithium ion, nickel-hydrogen, supercapacitors, and lead acid cells. It also boasts excellent capabilities for preventing static, corrosion, and water damage.

Store sealed, dry and light-protected at normal temperature.

MSE Supplies offers a variety of graphene products. Please contact us for more information. More detailed product information including SDS, certificate of analysis (COA), lead time and volume pricing are available upon request. Please contact MSE Supplies if you need bulk pricing. 

Specifications:

SKU# CM9015
Package Size 1 kg
Solvent Water
Graphene Content
5 wt%
Water Content 94.5 wt%
Lateral Size 1-5 um
Viscosity ~3000 mPa·s


Reference:

[1] W.U. YongJian, Tang RenHeng, L.I. WenChao, Wang Ying, Huang Ling, Ouyang LiuZhang, A high-quality aqueous graphene conductive slurry applied in anode of lithium-ion batteries, Journal of Alloys and Compounds, Volume 830, 2020, 154575.

[2] Ying Shi, Lei Wen, Songfeng Pei, Minjie Wu, Feng Li, Choice for graphene as conductive additive for cathode of lithium-ion batteries, Journal of Energy Chemistry, Volume 30, 2019, Pages 19-26.