TiVCrMoAlC3 MXene Phase Powder

TiVCrMoAlC3 MXene Phase Powder is a multi-component 2D material known for its high conductivity, stability, and strength. It is ideal for energy storage, catalysis, and EMI shielding. NexusX Advanced Materials, as a premier manufacturer and supplier of high-quality TiVCrMoAlC3 MXene Phase Powder products, focuses on producing high-precision pyrolytic boron nitride custom parts for diverse applications.

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TiVCrMoAlC3 MXene Phase Powder Data Sheet

Purity:	≥98%
Size :	2–20 µm, 200–1000 nm or customized

TiVCrMoAlC3 MXene Phase Powder Description

TiVCrMoAlC3 MXene Phase Powder is a high-entropy, multi-metal two-dimensional material composed of titanium, vanadium, chromium, molybdenum, and aluminum carbides. Its unique layered structure provides excellent electrical conductivity, thermal stability, and mechanical strength, making it suitable for advanced energy storage, electrocatalysis, and electromagnetic shielding applications. The combination of multiple transition metals enables tunable electronic and chemical properties, thereby enhancing their versatility in research and industrial applications.

TiVCrMoAlC3 MXene Phase Powder Specifications

Attribute	Multilayer TiVCrMoC3Tx Powder	Single-Layer TiVCrMoC3Tx Powder
Etching Process	HF Etching	HF Etching + Intercalating Agent Delamination
Size	2–20 (µm)	200–1000 (nm)
Number of Layers	Multilayer	≤5 Layers
Conductivity (S/cm)	10–100	500 ± 200
Surface Groups	-OH, =O, -F, -Cl
Appearance	Silver powdered material
Structure	Two-dimensional layered material
Production Method	Synthesized using hydrofluoric acid, providing excellent oxidation resistance
Series Type	High-entropy series, where different transition metal elements contribute to their respective advantageous applications
Storage	Powder stored in vacuum drying or inert environments

TiVCrMoAlC3 MXene Phase Powder Features

Silver Powder Appearance: Fine, uniform silver-colored powder with stable physical characteristics.
2D Layered Structure: Exhibits a typical MXene two-dimensional crystal structure with high surface area.
Good Oxidation Resistance: Produced via hydrofluoric acid etching, providing enhanced stability against oxidation.
Controllable Flake Size: Flake dimensions can be precisely adjusted to meet different research and application requirements.
High-Entropy Multi-Metal Composition: Incorporates multiple transition metals, offering synergistic effects for electrical, catalytic, and mechanical performance; best preserved under vacuum or inert atmosphere.

TiVCrMoAlC3 MXene Phase Powder Applications

Energy Storage Devices: Mo4VAlC4 MXene Phase Powder is suitable for lithium-ion and sodium-ion batteries, where vanadium incorporation enhances specific capacity and cycling stability.
Supercapacitors: The 2D layered morphology and large surface area enable fast ion transport, making it ideal for high-power supercapacitors with superior energy density.
Electrocatalysis: Demonstrates strong catalytic activity in hydrogen evolution and oxygen reduction reactions, supporting applications in water-splitting and fuel cell systems.
Conductive Coatings and Films: High electrical conductivity makes it useful in EMI shielding, sensors, and flexible electronic devices through thin conductive coatings.
Protective and Functional Materials: Its oxidation resistance and structural stability allow applications in anti-corrosion coatings, high-temperature materials, and advanced composites.

TiVCrMoAlC3 MXene Phase Powder Packaging

TiVCrMoAlC3 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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FAQ

What is TiVCrMoAlC3 MXene Phase Powder?

TiVCrMoAlC3 MXene Phase Powder is a high-entropy MAX phase powder with the chemical formula Titanium-Vanadium-Chromium-Molybdenum-Aluminum-Carbide. It serves as a precursor material for the synthesis of two-dimensional (2D) high-entropy MXene (TiVCrMoC₃Tx) by selectively etching away the aluminum layer.

How is TiVCrMoAlC3 MXene Phase Powder synthesized?

This powder is typically synthesized via high-temperature solid-state reaction methods such as pressureless sintering or spark plasma sintering (SPS). Ti, V, Cr, Mo, Al, and C source powders are mixed in stoichiometric ratios and annealed at high temperatures (usually >1000°C) to form a layered hexagonal crystal structure.

What are the main application fields of TiVCrMoAlC3 MXene Phase Powder?

As a high-entropy MAX phase, its primary use is as a precursor to synthesize high-entropy MXene. The derived MXene shows great research potential in fields such as energy storage (e.g., lithium-ion batteries, supercapacitors), electrocatalysis, gas adsorption, sensors, and structural composites.

What are the purity and storage conditions of TiVCrMoAlC3 MXene Phase Powder?

Commercially available research-grade TiVCrMoAlC3 powder typically has a purity of over 98%. Due to the relatively stable chemical nature of MAX phases, it is recommended to store the powder in a dry environment at room temperature, avoiding moisture and oxidation to maintain its activity as a precursor.

What should be paid attention to when etching TiVCrMoAlC3 MXene Phase Powder?

The etching process involves the use of strong acids (e.g., hydrofluoric acid) and must be conducted in a fume hood with complete protective equipment (gloves, goggles, lab coat). Additionally, due to the multiple metals in this material, etching parameters (temperature, time, acid concentration) may need optimization to achieve selective removal of the aluminum layer while preserving the main MAX phase structure.

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