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Sigma-Aldrich

Titanium Carbide (Ti3C2Tx)

Few layer MXene

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About This Item

Linear Formula:
Ti3C2Tx
UNSPSC Code:
12352103
NACRES:
NA.23

description

Electrical conductivity: 106 S/m (MXene-only film prepared from an aqueous dispersion of MXene, at RT via a four-probe technique)

Quality Level

100

L

1-4 μm , average lateral size (by scanning electron microscopy)

surface area

~146 m2/g , Brunauer–Emmett–Teller method

thickness

1-3 nm , by atomic force microscopy

solubility

H2O: ≥300 mg/mL

density

4.12 g/cm3 (measured by Helium pycnometer)

storage temp.

2-8°C

Related Categories

General description

Mxenes find extensive use in LiBs and rechargeable non-lithium-ion (Na+, K+, Mg2+, Ca2+, and Al3+) batteries. This MXene is a suitable candidate for Li-ion batteries because of its higher electrical conductivity and Li storage capacity comparable with graphite electrodes. This MXene has been explored as anode , cathode and separators in battery applications.

Application

Ti3C2Tx MXenes are a novel type of two-dimensional (2D) material composed of layered carbides of transition metals. MXenes have excellent thermal and electrical conductivity, heat resistance, and excellent volumetric capacitance, whilst having the highest electromagnetic (EMI) shielding effectiveness among similar synthetic 2D materials. Among its several applications, MXenes have been highlighted for:
  • Active material for energy storage devices (e.g. supercapacitors, lithium-based batteries);
  • Nanocomposites for power generation;
  • Biomedical applications;
  • Catalyst;
  • EMI Shielding.

Legal Information

For research only

Storage Class Code

11 - Combustible Solids

WGK

WGK 3

Certificates of Analysis (COA)

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Kai Huang et al.
Chemical Society reviews, 47(14), 5109-5124 (2018-04-19)
Two-dimensional transition metal carbides and nitrides known as MXenes, with a general formula of Mn+1Xn (n = 1-3), integrate the advantages of metallic conductive transition metals with large groups of carbides, nitrides, or carbonitrides. They have led to a burgeoning
MXene as a novel intercalation-type pseudocapacitive cathode and anode for capacitive deionization
Srimuk, Pattarachai et. al.
Journal of Material Chemistry A, 4, 18265-18271 (2016)
Prediction and Characterization of MXene Nanosheet Anodes for Non-Lithium-Ion Batteries
Xie, Yu et. al.
ACS Nano, 8, 9606?9615-9606?9615 (2014)
Zhen Zhang et al.
Nature communications, 10(1), 2920-2920 (2019-07-04)
Two-dimensional nanofluidic channels are emerging candidates for capturing osmotic energy from salinity gradients. However, present two-dimensional nanofluidic architectures are generally constructed by simple stacking of pristine nanosheets with insufficient charge densities, and exhibit low-efficiency transport dynamics, consequently resulting in undesirable
Ji Liu et al.
Advanced materials (Deerfield Beach, Fla.), 29(38), 1702367-1702367 (2017-08-12)
Ultrathin, lightweight, and flexible electromagnetic-interference (EMI) shielding materials are urgently required to manage increasingly serious radiation pollution. 2D transition-metal carbides (MXenes) are considered promising alternatives to graphene for providing excellent EMI-shielding performance due to their outstanding metallic electrical conductivity. However
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MXenes Empowering Next Gen Batteries and Hydrogen Evolution

Discover how MXenes' superior conductivity, strength, and stability are revolutionizing energy. Explore their potential for next-gen batteries and hydrogen evolution.

MXenes Empowering Next Gen Batteries and Hydrogen Evolution

Discover how MXenes' superior conductivity, strength, and stability are revolutionizing energy. Explore their potential for next-gen batteries and hydrogen evolution.

MXenes Empowering Next Gen Batteries and Hydrogen Evolution

Discover how MXenes' superior conductivity, strength, and stability are revolutionizing energy. Explore their potential for next-gen batteries and hydrogen evolution.

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