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Key Documents

910821

Sigma-Aldrich

Titanium aluminium carbide 211

MAX Phase, ≥80%, ≤100 μm particle size

Synonym(s):

MAX Phase 211, Ti2AlC

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About This Item

Linear Formula:
Ti2AlC
CAS Number:

Assay

≥80%

form

powder

color

dark gray

particle size

≤100 μm

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General description

Mxenes find extensive use in LiBs and rechargeable non-lithium-ion (Na+, K+, Mg2+, Ca2+, and Al3+) batteries . This MXene precursor enables the potential of Ti3C2Tx Mxenes as anode , cathode or separator to boost battery life-cycle and efficiency.

Application

MAX phases are a family of ternary carbides and nitrides that share a similar layered hexagonal crystal structure.
Ti2AlC MAX phase exhibits high-temperature stability, thermal shock resistance, damage tolerance, crack-healing capability, good machinability, and exceptional oxidation resistance (immune to thermal cycling), and was widely used for high-temperature applications such as high-temperature heating elements, gas burner nozzles and industrial die inserts.

MAX phases are important precursors for synthesizing MXene, a highly conductive 2-dimentional nanomaterial. MXenes are produced by selective etching of the A element from the MAX phases. It combine the metallic conductivity of transition metal carbides with the hydrophilic nature of their hydroxyl or oxygen terminated surfaces. Ti2AlC MAX phase is one of the most used MAX phase for MXene (Ti2CTx).

Storage Class Code

13 - Non Combustible Solids

WGK

WGK 3

Flash Point(F)

Not applicable

Flash Point(C)

Not applicable


Certificates of Analysis (COA)

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Articles

Professor Gogotsi and Dr. Shuck introduce MXenes: a promising family of two-dimensional materials with a unique combination of high conductivity, hydrophilicity, and extensive tunability.

Dr. Xiang’s and Maruyama’s review presents the most recent research activities on 1D vdWHs, including the candidate materials, the synthetic techniques, and characterization methods. The optoelectronic applications are discussed in detail for different constructions of the 1D vdWHs-based devices (FETs, sensors, LEDs, photovoltaic devices, and light detection). Some challenges and perspectives for future development and applications of 1D vdWHs are also proposed to conclude the review.

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