5 grams: 245€
25 grams: 980€
100 grams:  3460€

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Titanium Carbide ( Ti3C2Tx) MXene Phase Powder

Purity 98+%, Size: 2-20 µm

Titanium Carbide MXene is a premier two-dimensional (2D) transition metal carbide characterized by a layered architecture consisting of three titanium (Ti) layers sandwiching two carbon (C) layers. This material is synthesized through the selective hydrofluoric acid (HF) etching of aluminum from its parent Ti3AlC2 MAX phase, resulting in a multilayer, accordion-like morphology. The structural hallmark of Ti3C2Tx is its high metallic conductivity coupled with a hydrophilic surface, a combination derived from its termination groups (–OH, –O, –F). These surface groups allow for exceptional dispersibility in various media and facilitate the tuning of its electronic and chemical properties. Its high surface area and mechanical flexibility make it a cornerstone material for advanced nanostructured systems.

Technical Properties

SEM Images

XRD Analysis

Applications

• Energy Storage Systems: Ti3C2Tx serves as a critical active material or conductive additive in lithium-ion and sodium-ion batteries, as well as supercapacitor electrodes. Its layered architecture provides rapid ion transport channels and high surface area, significantly enhancing charge storage capacity and long-term cycling stability.
• Electromagnetic Interference (EMI) Protection: The material's high electrical conductivity and layered morphology allow for superior EMI attenuation. It is incorporated into polymer composites and coatings to protect sensitive electronics across GHz frequency ranges.
• High-Sensitivity Sensors: Utilized in chemiresistive and electrochemical sensors, Ti3C2Tx facilitates fast electron transfer. Its tunable surface terminations allow for the selective and rapid detection of various gases, ions, and biomolecules.
• Catalysis and Electrocatalysis: Ti3C2Tx acts as an efficient support or co-catalyst in reactions such as HER, OER, and CO2 reduction. The metallic conductivity and abundance of functional groups promote the uniform dispersion of active sites and enhance overall catalytic activity.
• Water Treatment and Ion Sieving: Leveraging its hydrophilic nature and precise interlayer spacing, Ti3C2Tx is applied in membrane technologies for heavy metal removal, dye degradation, and desalination.
• Biomedical Engineering: The powder is processed into dispersions for drug delivery, biosensing, and photothermal therapy. Its inherent biocompatibility and surface modifiability make it ideal for interfacing with biological systems.
• Flexible and Wearable Electronics: Ti3C2Tx can be formulated into conductive inks for flexible circuits and stretchable energy devices. It maintains high electrical performance even under significant mechanical deformation.

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