5 grams: 190€
25 grams: 680€
100 grams:  2380€
500 grams: 8750€
1000 grams:  14840€

Contact us for tailored quotes on larger quantities & experience exceptional solutions from our experts. 

Multi-Layer Titanium Carbide (Ti2CTx) MXene Phase Powder

Purity: 98+%, Size: 2-20 µm

Titanium Carbide MXene is a state-of-the-art two-dimensional (2D) transition metal carbide produced through the selective top-down exfoliation of the Ti2AlC MAX phase. Unlike its precursor, the Ti2CTx structure features a high concentration of surface functional groups (represented by Tx, such as -OH, -F, and =O), which impart a unique hydrophilic nature to a traditionally metallic-conducting backbone. This material consists of accordion-like multilayered flakes that provide an expansive interlayer spacing, facilitating rapid ion intercalation and molecular transport. Its structural hallmark is the combination of metallic-like electron mobility with a tunable surface chemistry, allowing it to act as a highly active platform for various electrochemical and physical interactions.

Technical Properties

Applications

• High-Rate Energy Storage: Ti2CTx is a premier material for lithium-ion battery anodes and supercapacitors due to its high volumetric capacitance and rapid ion diffusion paths between the 2D layers.
• EMI Shielding & Microwave Absorption: Its excellent electrical conductivity allows for the effective attenuation of electromagnetic waves, making it essential for lightweight shielding in telecommunications and aerospace electronics.
• Electrochemical & Biosensing: The abundant surface functional groups provide highly active sites for the selective adsorption of molecules, enabling the development of ultra-sensitive sensors for environmental pollutants and biological markers.
  
• Advanced Water Purification: Utilizing its 2D nanochannels and hydrophilicity, this MXene is employed in membrane technologies for ion sieving, heavy metal removal, and efficient desalination.
• Electrocatalysis: The exposed transition metal (Ti) sites facilitate efficient charge transfer for reactions such as the Hydrogen Evolution Reaction (HER), positioning it as a durable alternative to precious metal catalysts.
• Photothermal Therapy & Medicine:Ti2CTx exhibits strong near-infrared (NIR) absorption, allowing it to convert light into localized heat for targeted cancer therapy and various biomedical imaging applications.
  
• Flexible & Wearable Electronics: The layered powder can be processed into conductive inks and films for flexible circuits and smart textiles that require mechanical resilience and stable electrical performance.