Poudre de phase MXène Ti3CNTx
Poudre de phase MXène Ti3CNTx
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Ti3CNTx MXene Phase Powder Data Sheet
|
La pureté : |
≥98% |
|
Taille : |
2-20 µm, 200-1000 nm ou sur mesure |
Ti3CNTx MXene Phase Powder Description
Ti3CNTx MXene Phase Powder is derived from layered titanium carbonitride through selective etching and intercalation processes. With its 2D nanosheet structure, large specific surface area, and metallic-like conductivity, Ti3CNTx MXene Phase Powder provides fast ion transport and strong electronic coupling. The presence of nitrogen atoms in its structure enhances stability and surface activity compared to pure carbide-based MXenes, making it especially effective in lithium/sodium-ion batteries, supercapacitors, hydrogen evolution reaction (HER), and advanced catalysis. Its tunable flake size and controllable surface chemistry enable flexible optimization for various applications, including sensors, water purification, and electromagnetic shielding.
Ti3CNTx MXene Phase Powder Specifications
| Attribut | Multilayer Ti3CNTx Powder | Single-Layer Ti3CNTx Powder |
| Procédé de gravure | LiF/HCl Etching | |
| Taille | 2-20 (µm) | 200-1000 (nm) |
| Nombre de couches | Multicouche | ≤5 couches |
| Conductivité (S/cm) | 10-100 | 2500 ± 500 |
| Groupes de surface | -OH, =O, -F, -Cl | |
| Apparence | Black-purple powdered material | |
| Structure | Matériau en couches bidimensionnelles | |
| Méthode de production | Prepared using hydrofluoric acid or lithium fluoride/hydrochloric acid to avoid the formation of titanium nitride | |
| Performance | High conductivity with excellent performance in electromagnetic shielding applications | |
| Stockage | Stockés en séchage sous vide ou dans des environnements inertes |
Ti3CNTx MXene Phase Powder Features
- Distinctive black-purple powder appearance with stable particle distribution.
- Unique two-dimensional layered architecture, offering large surface area and high structural integrity.
- Synthesized via selective etching routes that minimize titanium nitride formation, ensuring phase purity.
- Controllable flake size and thickness, adaptable to various research and industrial applications.
- Exceptional electrical conductivity, delivering superior performance in electromagnetic shielding and related technologies.
Ti3CNTx MXene Phase Powder Applications
- Blindage contre les interférences électromagnétiques (EMI) : Provides high conductivity and layered morphology, making it highly effective in shielding electronic devices from electromagnetic radiation.
- Supercapacitors: Act as an electrode material with excellent ion transport and charge storage capability, enabling high power density and long cycling stability.
- Lithium/Sodium-Ion Batteries: Enhance energy storage capacity and rate performance through fast electron/ion transfer and stable structural framework.
- Électrocatalyse : Serves as an efficient catalyst for the hydrogen evolution reaction (HER) and other electrochemical reactions due to its active surface terminations.
- Sensors: Utilized in gas, ion, and biosensing technologies, benefiting from their large surface area and tunable surface chemistry for high sensitivity.
- Blindage contre les interférences électromagnétiques (EMI)
- Precision Sensors
- Supercapacitors
Blindage contre les interférences électromagnétiques (EMI)
Precision Sensors
Supercapacitors
Ti3CNTx MXene Phase Powder Packaging
Ti3CNTx MXene Phase Powder is typically packaged in sealed, moisture-proof plastic bags, then placed in sturdy drum containers or fiber cartons to prevent contamination and ensure safe transport. Standard packaging sizes include 1 kg, 5 kg, and 10 kg options, with custom packaging available upon request to meet specific usage or storage needs.
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