On the chemical diversity of the MAX phases
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 …
metal carbides and nitrides, where n= 1, 2, or 3, M is an early transition metal, A is an A …
On the formation mechanisms and properties of MAX phases: A review
Z Zhang, X Duan, D Jia, Y Zhou… - Journal of the European …, 2021 - Elsevier
MAX phases are a family of ternary carbide or nitride ceramics possessing a layered crystal
structure and, due to their chemical bonds having a mixed covalent-ionic-metallic nature …
structure and, due to their chemical bonds having a mixed covalent-ionic-metallic nature …
[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 …
Layered ternary M n+ 1AX n phases and their 2D derivative MXene: an overview from a thin-film perspective
Inherently and artificially layered materials are commonly investigated both for fundamental
scientific purposes and for technological application. When a layered material is thinned or …
scientific purposes and for technological application. When a layered material is thinned or …
MAX phases as nanolaminate materials: chemical composition, microstructure, synthesis, properties, and applications
L Fu, W Xia - Advanced Engineering Materials, 2021 - Wiley Online Library
In recent years, MAX phases, a family of nanolaminate materials, have garnered
tremendous research interest worldwide, due to the fact that they possess an excellent …
tremendous research interest worldwide, due to the fact that they possess an excellent …
Sintering of MAX-phase materials by spark plasma and other methods
J Lyu, EB Kashkarov, N Travitzky, MS Syrtanov… - Journal of Materials …, 2021 - Springer
This review focuses on the comparison of the spark plasma sintering (SPS) with other
fabrication methods of MAX-phase materials. In the view of optimizing properties for …
fabrication methods of MAX-phase materials. In the view of optimizing properties for …
Novel two-dimensional Ti3C2Tx/Ni-spheres hybrids with enhanced microwave absorption properties
N Li, X Xie, H Lu, B Fan, X Wang, B Zhao, R Zhang… - Ceramics …, 2019 - Elsevier
Abstract Ti 3 C 2 TX/Ni-spheres hybrids were successfully prepared through in situ
hydrothermal assembly of Ni spheres on Ti 3 C 2 T x layer, and then the electromagnetic …
hydrothermal assembly of Ni spheres on Ti 3 C 2 T x layer, and then the electromagnetic …
Development of the phase composition and the properties of Ti2AlC and Ti3AlC2 MAX-phase thin films–A multilayer approach towards high phase purity
C Torres, R Quispe, NZ Calderón, L Eggert… - Applied Surface …, 2021 - Elsevier
MAX phase thin films have been synthesized by thermal treatment of a Ti-Al-C multilayer
system. The preparation of the multilayer system was carried out via magnetron sputtering …
system. The preparation of the multilayer system was carried out via magnetron sputtering …
[HTML][HTML] Effect of Sn doping concentration on the oxidation of Al-containing MAX phase (Ti3AlC2) combining simulation with experiment
C Guo, E Wang, Y Liu, Y Zheng, T Yang, X Hou - Fundamental Research, 2022 - Elsevier
Sn doping is usually adopted to prepare Ti 3 AlC 2 in mass production because it can
reduce the synthesis temperature while increasing the phase purity. However, excessive Sn …
reduce the synthesis temperature while increasing the phase purity. However, excessive Sn …
Structural Modifications and Electromagnetic Property Regulations of Ti3AlC2 MAX for Enhancing Microwave Absorption through the Strategy of Fe Doping
J Li, T Xu, H Bai, Z Shen, Y Huang… - Advanced Materials …, 2022 - Wiley Online Library
Microwave absorption enhancements through atomic doping in traditional materials remain
a significant challenge. Herein, the MAX phase materials of Fe‐doped Ti3AlC2 (xFe …
a significant challenge. Herein, the MAX phase materials of Fe‐doped Ti3AlC2 (xFe …