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Titanium Aluminum Carbide Mxene Phase

Titanium Aluminum Carbide Mxene Phase

Titanium Aluminum Carbide Mxene Phase

Product No. NRE-59006
CAS No. 12537-81-4
Formula Ti3AlC2
Molecular Weight 194.60 g/mol
APS < 100-200 nm (Can be Customized)
Purity 99.9%
Form Powder

Titanium Aluminum Carbide Mxene Phase

Titanium aluminum carbide (Ti₃AlC₂) MXene is a unique member of the MXene family, known for its distinctive properties and potential applications. MXene are a class of two-dimensional (2D) materials derived from the selective etching of aluminum from their corresponding MAX phases (carbides, nitrides, or carbonitrides). Ti₃AlC₂ is notable for its combination of high electrical conductivity, thermal stability, and mechanical strength.

Here’s an overview of the applications and benefits of Titanium Aluminum Carbide (Ti₃AlC₂) MXene:

Applications

Energy Storage and Conversion:

Applications: Used in energy storage devices such as supercapacitors and batteries.

Advantages: Ti₃AlC₂ MXene have high electrical conductivity and large surface area, which improve the performance and efficiency of energy storage systems. They offer high capacitance, rapid charge/discharge rates, and enhanced cycle stability.

Electromagnetic Shielding:

Applications: Employed in electromagnetic interference (EMI) shielding materials and coatings.

Advantages: The excellent electrical conductivity and layered structure of Ti₃AlC₂ MXene make them effective at shielding electronic devices from electromagnetic interference and enhancing signal integrity.

 Catalysis:

Applications: Used as a catalyst or catalyst support in various chemical reactions, including hydrogen evolution and fuel cells.

Advantages: Ti₃AlC₂ MXene exhibit high catalytic activity and stability, which can improve the efficiency of catalytic processes and energy conversion technologies.

Sensors:

Applications: Utilized in advanced sensors, including gas sensors and biosensors.

Advantages: The high surface area and electrical conductivity of Ti₃AlC₂ MXene enhance sensor sensitivity and response, making them suitable for detecting various gases and biological substances.

Thermal Management:

Applications: Applied in thermal management systems, including heat dissipation materials and thermal barriers.

Advantages: Ti₃AlC₂ MXenes have high thermal conductivity, which helps in managing and dissipating heat in electronic devices and other systems.

 Composite Materials:

Applications: Incorporated into composite materials to improve their mechanical and thermal properties.

Advantages: Ti₃AlC₂ MXene can enhance the strength, toughness, and thermal conductivity of composites, making them useful in high-performance applications such as aerospace and automotive components.

 

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