Jun Lu scite author profile

Herein we report on the synthesis of two-dimensional transition metal carbides and carbonitrides by immersing select MAX phase powders in hydrofluoric acid, HF. The MAX phases represent a large (>60 members) family of ternary, layered, machinable transition metal carbides, nitrides, and carbonitrides. Herein we present evidence for the exfoliation of the following MAX phases: Ti(2)AlC, Ta(4)AlC(3), (Ti(0.5),Nb(0.5))(2)AlC, (V(0.5),Cr(0.5))(3)AlC(2), and Ti(3)AlCN by the simple immersion of their powders, at room temperature, in HF of varying concentrations for times varying between 10 and 72 h followed by sonication. The removal of the "A" group layer from the MAX phases results in 2-D layers that we are labeling MXenes to denote the loss of the A element and emphasize their structural similarities with graphene. The sheet resistances of the MXenes were found to be comparable to multilayer graphene. Contact angle measurements with water on pressed MXene surfaces showed hydrophilic behavior.

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New Two-Dimensional Niobium and Vanadium Carbides as Promising Materials for Li-Ion Batteries

Naguib

et al. 2013

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New two-dimensional niobium and vanadium carbides have been synthesized by selective etching, at room temperature, of Al from Nb2AlC and V2AlC, respectively. These new matrials are promising electrode materials for Li-ion batteries, demonstrating good capability to handle high charge-discharge rates. Reversible capacities of 170 and 260 mA·h·g(-1) at 1 C, and 110 and 125 mA·h·g(-1) at 10 C were obtained for Nb2C and V2C-based electrodes, respectively.

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Two-Dimensional, Ordered, Double Transition Metals Carbides (MXenes)

et al. 2015

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The higher the chemical diversity and structural complexity of two-dimensional (2D) materials, the higher the likelihood they possess unique and useful properties. Herein, density functional theory (DFT) is used to predict the existence of two new families of 2D ordered, carbides (MXenes), M'2M″C2 and M'2M″2C3, where M' and M″ are two different early transition metals. In these solids, M' layers sandwich M″ carbide layers. By synthesizing Mo2TiC2Tx, Mo2Ti2C3Tx, and Cr2TiC2Tx (where T is a surface termination), we validated the DFT predictions. Since the Mo and Cr atoms are on the outside, they control the 2D flakes' chemical and electrochemical properties. The latter was proven by showing quite different electrochemical behavior of Mo2TiC2Tx and Ti3C2Tx. This work further expands the family of 2D materials, offering additional choices of structures, chemistries, and ultimately useful properties.

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Jun Lu

Two‐Dimensional Nanocrystals Produced by Exfoliation of Ti₃AlC₂

Two-Dimensional Transition Metal Carbides

New Two-Dimensional Niobium and Vanadium Carbides as Promising Materials for Li-Ion Batteries

Two-Dimensional, Ordered, Double Transition Metals Carbides (MXenes)

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Jun Lu

Two‐Dimensional Nanocrystals Produced by Exfoliation of Ti3AlC2

Two-Dimensional Transition Metal Carbides

New Two-Dimensional Niobium and Vanadium Carbides as Promising Materials for Li-Ion Batteries

Two-Dimensional, Ordered, Double Transition Metals Carbides (MXenes)

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Product

Resources

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Two‐Dimensional Nanocrystals Produced by Exfoliation of Ti₃AlC₂