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V4C3Tx MXene Phase Powder
V4C3Tx MXene Phase Powder is a vanadium-based two-dimensional material with a layered structure, high electrical conductivity, and tunable surface chemistry. It is widely used in energy storage, catalysis, and functional composites. We can supply high-quality V4C3Tx MXene Phase Powder with various specifications and competitive prices, offering customized solutions to meet specific requirements.
Or email us at sales@heegermaterials.com.V4C3Tx MXene Phase Powder Data Sheet
| Purity: | ≥98% |
| Size : | 2–20 µm, 200–1000 nm or customized |
V4C3Tx MXene Phase Powder Description
V4C3Tx MXene Phase Powder is a novel two-dimensional transition metal carbide derived from the selective etching of V4AlC3 MAX phase. With its unique vanadium-rich structure, this MXene exhibits excellent electrical conductivity, high surface reactivity, and tunable surface terminations (Tx, such as –O, –OH, –F). These properties make it a promising candidate for advanced applications in lithium-ion and sodium-ion batteries, supercapacitors, electrocatalysis, and electromagnetic shielding. The powder typically appears as a dark gray to black material with a sheet-like morphology, and its flake size can be controlled through processing methods. For long-term stability, V4C3Tx MXene Phase Powder should be vacuum-dried and stored in an inert atmosphere to prevent oxidation.
V4C3Tx MXene Phase Powder SEM
V4C3Tx MXene Phase Powder Specifications
| Attribute | Multilayer V4C3Tx Powder | Single-Layer V4C3Tx Powder |
| Etching Process | HF Etching | HF + Intercalating Agent Delamination |
| Size | 2–20 (µm) | 200–1000 (nm) |
| Number of Layers | Multilayer | ≤5 Layers |
| Conductivity (S/cm) | 1–10 | 10–500 |
| Surface Groups | -OH, =O, -F, -Cl | |
| Appearance | Brown powdered material | |
| Structure | Two-dimensional layered material | |
| Production Method | Prepared using hydrofluoric acid/intercalation reaction/lithium substitution, with excellent oxidation resistance | |
| Performance | High conductivity with multiple vanadium oxidation states, demonstrating remarkable energy storage performance | |
| Storage | Stored in vacuum drying or inert environments | |
V4C3Tx MXene Phase Powder Features
- Appearance: Brown to dark-gray powder with a typical two-dimensional layered structure.
- Structure: Two-dimensional sheet-like material with high surface area.
- Synthesis Method: Prepared via hydrofluoric acid etching, intercalation, or lithium replacement, exhibiting good oxidation resistance.
- Flake Size Control: Adjustable flake diameter to meet diverse research and industrial requirements.
- Electrical Performance: High electrical conductivity with multiple vanadium valence states, showing excellent performance in energy storage systems.
- Storage Condition: Vacuum-dried powder, recommended to be stored in an inert atmosphere to maintain stability.
V4C3Tx MXene Phase Powder Applications
- Energy Storage: Used in lithium-ion, sodium-ion, and zinc-ion batteries for enhanced capacity and long cycle life.
- Supercapacitors: Provide high conductivity and stable electrochemical performance for advanced capacitor systems.
- Electromagnetic Shielding: Effective material for blocking electromagnetic interference in electronic devices.
- Catalysis: Functions as a catalyst or electrocatalyst in reactions such as hydrogen evolution and oxygen reduction.
- Functional Composites: Incorporated into coatings, sensors, and multifunctional composite materials for enhanced mechanical and electrical properties.
V4C3Tx MXene Phase Powder Packaging
V4C3Tx 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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