MXenes for polymer matrix electromagnetic interference shielding composites: A review
The vigorous development of electronic equipment and wireless communication make the
concealment and harm of electromagnetic radiation increasingly prominent, which seriously …
concealment and harm of electromagnetic radiation increasingly prominent, which seriously …
Accelerating the prediction of stable materials with machine learning
Despite the rise in computing power, the large space of possible combinations of elements
and crystal structure types makes large-scale high-throughput surveys of stable materials …
and crystal structure types makes large-scale high-throughput surveys of stable materials …
[HTML][HTML] MAX phases–Past, present, and future
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 …
metal (M), an A-group element (A) and C, N, B and/or P (X). Progress in MAX phase …
High-throughput computational discovery of ternary-layered MAX phases and prediction of their exfoliation for formation of 2D MXenes
The rush to synthesize novel two-dimensional (2D) materials has excited the research
community studying ternary-layered carbide and nitride compounds, known as MAX phases …
community studying ternary-layered carbide and nitride compounds, known as MAX phases …
Structure and synthesis of MAX phase materials: a brief review
X Lei, N Lin - Critical Reviews in Solid State and Materials …, 2022 - Taylor & Francis
MAX phase materials a new family of ternary layered carbide and nitride compounds are
represented by the general formula of Mn+ 1AXn, where n= 1∼ 3, M stands for early …
represented by the general formula of Mn+ 1AXn, where n= 1∼ 3, M stands for early …
Two‐Dimensional MXenes Derived from Medium/High‐Entropy MAX Phases M2GaC (M = Ti/V/Nb/Ta/Mo) and their Electrochemical Performance
Abstract Two‐dimensional (2D) transition metal carbides and/or nitrides, MXenes, are
prepared by selective etching of the A‐site atomically thin metal layers from their MAX phase …
prepared by selective etching of the A‐site atomically thin metal layers from their MAX phase …
Phase transformation and amorphization resistance in high-entropy MAX phase M2SnC (M= Ti, V, Nb, Zr, Hf) under in-situ ion irradiation
S Zhao, L Chen, H Xiao, J Huang, Y Li, Y Qian… - Acta Materialia, 2022 - Elsevier
Chemical complexity significantly affects structures and properties in materials, such as high-
entropy alloys and oxides. In this study, we firstly studied the radiation effects in high-entropy …
entropy alloys and oxides. In this study, we firstly studied the radiation effects in high-entropy …
Theoretical predictions of phase stability for orthorhombic and hexagonal ternary MAB phases
In the quest for finding novel thermodynamically stable, layered, MAB phases promising for
synthesis, we herein explore the phase stability of ternary MAB phases by considering both …
synthesis, we herein explore the phase stability of ternary MAB phases by considering both …
Synthesis and Characterization of Medium‐/High‐Entropy M2SnC (M=Ti/V/Nb/Zr/Hf) MAX Phases
Entropy stabilization is an effective method to design and explore MAX phases with
outstanding properties via tuning constituent elements and crystal structures, which have …
outstanding properties via tuning constituent elements and crystal structures, which have …
Designing of magnetic MAB phases for energy applications
Based on high-throughput density functional theory calculations, we performed screening for
stable magnetic MAB compounds and predicted potential strong magnets for permanent …
stable magnetic MAB compounds and predicted potential strong magnets for permanent …