Cr2C Cr2C Cr2C

Cr2C

SKU: PWD-MAX-Cr2C
$450.00

MXenes are a class of layered materials made from the precursor MAXene by removing the A element. Thus, they are named MXenes and they have a similar structure to graphene and other 2D layers. The precursor, Cr2AlC, is a member of MAX phases, which is a family of ternary carbide or nitride with the formula Mn+1AXn, where M is a transition metal, A is the main-group element, and X is C. We use patented formula NaF-HCl solution etching process. Special care is given to reducing the etching rate and eliminating secondary MAX phases in order that 100% pure, perfectly layered, and purity higher than 99.999% can be achieved. The entire process starts from the precursor Cr2AlC and ends with Cr2C after pulsed NaF-HCl etching process. These MXenes have many important applications in battery, storage, catalysis, magnetism, and electronics. Each order contains 0.5grams of Cr2C vdW crystallites. See atomic depiction as well as SEM images in the product images.

 

 

 

 

Full Description
Formula: Cr2C
Qty
  • Description

    Cr2C

    MXenes are a class of layered materials made from the precursor MAXene by removing the A element. Thus, they are named MXenes and they have a similar structure to graphene and other 2D layers. The precursor, Cr2AlC, is a member of MAX phases, which is a family of ternary carbide or nitride with the formula Mn+1AXn, where M is a transition metal, A is the main-group element, and X is C. We use patented formula NaF-HCl solution etching process. Special care is given to reducing the etching rate and eliminating secondary MAX phases in order that 100% pure, perfectly layered, and purity higher than 99.999% can be achieved. The entire process starts from the precursor Cr2AlC and ends with Cr2C after pulsed NaF-HCl etching process. These MXenes have many important applications in battery, storage, catalysis, magnetism, and electronics. Each order contains 0.5grams of Cr2C vdW crystallites. See atomic depiction as well as SEM images in the product images.