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Sigma-Aldrich

Molybdenum Titanium Aluminum Carbide MAX phase

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About This Item

Empirical Formula (Hill Notation):
Mo2Ti2AlC3
Molecular Weight:
350.63
UNSPSC Code:
12352311
NACRES:
NA.23

form

powder

Quality Level

color

gray to black

SMILES string

[Mo][Mo][Ti][Ti][Al]([C])C#[C]

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Application

Mo2Ti2AlC3 is a 413 MAX phase, a precursor for cutting-edge applications. MXene nanosheets, a class of two-dimensional transition-metal carbides, are predicted to serve as high-performing anodes for non-lithium-ion batteries by combined first-principles simulations and experimental measurements. Further, Mo2Ti2AlC3, a novel MAX phase, exhibits impressive thermoelectric properties, surpassing traditional ceramics. Its metallic transport behavior offers new possibilities in electronic applications. Additionally, Mo2Ti2AlC3 serves as an efficient mode-locker for ultrafast fiber lasers, highlighting its versatility in photonics.

Pictograms

Environment

Hazard Statements

Precautionary Statements

Hazard Classifications

Aquatic Chronic 2

Storage Class Code

11 - Combustible Solids

WGK

WGK 3

Flash Point(F)

Not applicable

Flash Point(C)

Not applicable


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An electrochemical sensor for detection of trace-level endocrine disruptor bisphenol A using Mo2Ti2AlC3 MAX phase/MWCNT composite modified electrode
Sanko, Vildan et. al.
Environmental Research, 212, 113071-113071 (2022)
MAX phase (Mo2Ti2AlC3) as a mode-locker for ultrafast fiber laser
Salam, Sameer et. al.
Optical Fiber Technology, 81, 103500-103500 (2023)
Passive Q-switched fiber laser with MAX phase molybdenum titanium aluminum carbide film
Najm, Mustafa et. al.
Optical and Quantum Electronics, 56 (2024)
A promising layered thermoelectric metallic ceramic with ultra-high temperature stability: Mo2Ti2AlC3
Jiang, Qinghui et. al.
Journal of alloys and compounds, 922, 166212-166212 (2022)
Generation of dual-wavelength Q-switched laser pulses by employing Mo2Ti2AlC3 MAX phase film
Najm, Mustafa et. al.
Optical Fiber Technology, 81, 103566-103566 (2023)

Articles

Optimizing the synthesis of high-quality 2D MXene flakes for 3D ink printing is essential to such technological developments as printable and flexible electronics.

Discover how MXenes' superior conductivity, strength, and stability are revolutionizing energy. Explore their potential for next-gen batteries and hydrogen evolution.

Discover how MXenes' superior conductivity, strength, and stability are revolutionizing energy. Explore their potential for next-gen batteries and hydrogen evolution.

Discover how MXenes' superior conductivity, strength, and stability are revolutionizing energy. Explore their potential for next-gen batteries and hydrogen evolution.

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