25 mL/180 € 
50 mL/345 €                          
100 mL/670 €                        
Please contact us for quotes on larger quantities and custom concentrations!

Single Layer Titanium Carbide (Ti3C2Tx) MXene Suspension

Concentration: 1 mg/mL

Single‑layer Titanium Carbide (Ti₃C₂Tₓ) MXene suspension is a high‑purity aqueous dispersion containing exfoliated 2D nanosheets with excellent conductivity and surface reactivity. With a concentration of 1 mg/mL, this black suspension is ideal for advanced applications in energy storage, sensors, printed electronics, and functional coatings. Its monolayer morphology ensures maximum surface accessibility and uniform performance across research and industrial formulations.

Technical Properties

SEM Images

XRD Analysis

UV-VIS Analysis

Applications

• Energy storage and electrode materials: Single-layer Ti3C2Tx provides high electronic conductivity and a large accessible surface area that enhance charge transport and ion intercalation in supercapacitors, lithium- and sodium-ion battery electrodes, and hybrid energy-storage devices.
• Conductive inks, coatings and EMI shielding: Stable aqueous or polar suspensions at low concentrations enable formulation of highly conductive, thin coatings and printable inks for antistatic layers, transparent conductive films, and electromagnetic interference (EMI) shielding in flexible electronics.
• Sensors and electrochemical biosensors: The 2D morphology and surface termination groups (Tx) give fast surface kinetics and strong transduction, making single-layer Ti3C2Tx ideal for chemiresistive gas sensors, electrochemical biosensors, and enzymatic/affinity sensing platforms where rapid, low-noise signals are required.
• Electrocatalysis and catalytic supports: High conductivity combined with tunable surface chemistry allows Ti3C2Tx to act as an effective electrocatalyst or catalyst support for HER/OER, CO2 reduction, and other electrochemical transformations, including magnetically or electrically assisted catalytic systems.
• Nanoelectromechanical systems (NEMS), membranes and devices: Atomically thin Ti3C2Tx membranes and films enable mechanical flexibility with electrical functionality for NEMS, nanofilters, tunable membranes, and components in micro/nanoelectronic devices where monolayer integrity and conductivity are critical.
• Composites and multifunctional hybrids: Low-concentration suspensions are used to functionalize polymers, hydrogels, and oxide matrices to impart electrical conductivity, thermal transport, mechanical reinforcement, and EMI damping while preserving processability and transparency in thin films.