MXene is one of the most interesting two-dimensional (2D) materials that have been
discovered. With more than 70% of publication-related studies, titanium-based MXene (Ti …

The M n+ 1 AX n, or MAX, phases are nanolayered, hexagonal, machinable, early transition-
metal carbides and nitrides, where n= 1, 2, or 3, M is an early transition metal, A is an A …

More than a decade after the discovery of MXene, there has been a remarkable increase in
research on synthesis, characterization, and applications of this growing family of two …

The MAX phases are a class of nanolaminated materials composed of an early transition-
metal (M), an A-group element (A) and C, N, B and/or P (X). Progress in MAX phase …

Growing interest in the potential applications of two-dimensional (2D) materials has fueled
advancement in the identification of 2D systems with exotic properties. Increasingly, the …

MXenes are a set of two-dimensional transition metal carbides and nitrides that offer many
potential applications in energy storage and electronic devices. As an important parameter …

AX n—where n= 1, 2, or 3, where M is an early transition metal, A is an A-group element
(specifically, the subset of elements 13–16), and X is carbon and/or nitrogen, Figure 2. 1 …

The MAX phases are a group of layered ternary compounds with the general formula Mn+
1AXn (M: early transition metal; A: group A element; X: C and/or N; n= 1–3), which combine …

This article is a critical review of the Mn+ 1AXn phases (“MAX phases”, where n= 1, 2, or 3)
from a materials science perspective. MAX phases are a class of hexagonal-structure …

Inherently and artificially layered materials are commonly investigated both for fundamental
scientific purposes and for technological application. When a layered material is thinned or …