Tantalum Carbide MXene Powder
Tantalum Carbide MXene Powder
Tantalum Carbide MXene Powder |
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Product No. | NRE-59010 |
CAS No. | 12070-07-4 |
Formula | Ta2C |
Molecular Weight | 373.90 g/mol |
APS | < 40 μm |
Purity | 99.9% |
Form | Powder |
Tantalum Carbide MXene Powder
Tantalum carbide Mxene powder is a type of two-dimensional (2D) material that has gained significant attention in the field of materials science due to its unique properties and potential applications. Here’s a brief overview of tantalum carbide MXene:
What is Tantalum Carbide Mxene:
Tantalum carbide Mxene is a member of the Mxene family, which consists of transition metal carbides, nitrides, and carbonitrides. Mxene are characterized by their layered structure and are derived from the selective etching of the “A” layer in the parent MAX phases (where M is a transition metal, A is an element from groups 13 or 14, and X is carbon or nitrogen). In the case of tantalum carbide Mxene, the parent MAX phase is typically Ta4AlC3.
Properties.
- 1. High Electrical Conductivity: Tantalum carbide Mxene powder exhibit excellent electrical conductivity, making them useful for applications in energy storage and electronic devices.
- 2. Mechanical Strength: They have impressive mechanical properties, including high hardness and strength, which can be beneficial for structural applications.
- 3. Thermal Stability: Tantalum carbide Mxene maintains their properties over a wide range of temperatures, which is valuable for high-temperature applications.
- 4. Chemical Stability: They show good resistance to oxidation and other chemical reactions, enhancing their durability in various environments.
Applications:
- 1. Energy Storage: Due to their high electrical conductivity and large surface area, tantalum carbide
- Catalysis: Their surface properties make them suitable for catalytic reactions, including hydrogen MXene are explored for use in super capacitors and batteries.
- Electromagnetic Interference Shielding: Their conductivity and layered structure help in attenuating electromagnetic interference, which can be useful in electronic and communication devices.
- Coatings and Thin Films: Their hardness and chemical resistance make them ideal candidates for protective coatings and thin films.
Synthesis and Challenges: Tantalum carbide Mxene powder are typically synthesized through selective etching processes, which can be complex and require careful control of experimental conditions. Challenges in their synthesis include achieving high purity and uniformity, as well as scaling up the production for industrial applications.