Thermal stability of two-dimensional Ti2C nanosheets

“…Simultaneously, a relatively sharp exothermic peak appears at about 984°C in DSC curves, likely related to crystal structure transformation. [15,40] Note that in the case of Zr3C2Tz, the relatively less significant mass loss in TG curves could be related to the influence of the more stable pre-existing cubic ZrC and residual Zr3Al3C5 second phases presented in the HF-treated powder mixture.…”

“…In addition, an endothermic peak appears at 71°C in its corresponding DSC curve. It is reasonable to conclude that the first stage in both cases is due to the removal of physically absorbed water [26,[40][41] and intercalated crystal water.…”

“…Simultaneously, a relatively sharp exothermic peak appears at about 984°C in DSC curves, likely related to crystal structure transformation. [15,40] Note that in the case of Zr3C2Tz, the relatively less significant mass loss in TG curves could be related to the influence of the more stable pre-existing cubic ZrC and residual Zr3Al3C5 second phases presented in the HF-treated powder mixture.To further gain insight in the above distinct thermal behaviors between the Ti3C2Tz and Zr3C2Tz MXenes in the 500-1000°C temperature range, XRD analysis was performed. As shown in Figure 5b, it can be seen that characteristic diffraction peaks belong to hexagonally symmetrical Ti3C2 MXenes disappeared and only cubic TiC can be detected after two hours vacuum annealing at 1000°C.…”

“…In addition, an endothermic peak appears at 71°C in its corresponding DSC curve. It is reasonable to conclude that the first stage in both cases is due to the removal of physically absorbed water [26,[40][41] and intercalated crystal water.[35] Above 500°C, a broad exothermic peak at about 700°C can be identified in DSC curve of 2D Zr3C2Tz, and without apprent mass loss in TG curve from 500°C to 1200°C. This slow exothermic process might be related to the growth of nanocrystals.…”

A Two‐Dimensional Zirconium Carbide by Selective Etching of Al₃C₃ from Nanolaminated Zr₃Al₃C₅

“…Simultaneously, a relatively sharp exothermic peak appears at about 984°C in DSC curves, likely related to crystal structure transformation. [15,40] Note that in the case of Zr3C2Tz, the relatively less significant mass loss in TG curves could be related to the influence of the more stable pre-existing cubic ZrC and residual Zr3Al3C5 second phases presented in the HF-treated powder mixture.…”

“…In addition, an endothermic peak appears at 71°C in its corresponding DSC curve. It is reasonable to conclude that the first stage in both cases is due to the removal of physically absorbed water [26,[40][41] and intercalated crystal water.…”

“…Simultaneously, a relatively sharp exothermic peak appears at about 984°C in DSC curves, likely related to crystal structure transformation. [15,40] Note that in the case of Zr3C2Tz, the relatively less significant mass loss in TG curves could be related to the influence of the more stable pre-existing cubic ZrC and residual Zr3Al3C5 second phases presented in the HF-treated powder mixture.To further gain insight in the above distinct thermal behaviors between the Ti3C2Tz and Zr3C2Tz MXenes in the 500-1000°C temperature range, XRD analysis was performed. As shown in Figure 5b, it can be seen that characteristic diffraction peaks belong to hexagonally symmetrical Ti3C2 MXenes disappeared and only cubic TiC can be detected after two hours vacuum annealing at 1000°C.…”

“…In addition, an endothermic peak appears at 71°C in its corresponding DSC curve. It is reasonable to conclude that the first stage in both cases is due to the removal of physically absorbed water [26,[40][41] and intercalated crystal water.[35] Above 500°C, a broad exothermic peak at about 700°C can be identified in DSC curve of 2D Zr3C2Tz, and without apprent mass loss in TG curve from 500°C to 1200°C. This slow exothermic process might be related to the growth of nanocrystals.…”

A Two‐Dimensional Zirconium Carbide by Selective Etching of Al₃C₃ from Nanolaminated Zr₃Al₃C₅

“…The surface of MXene contains many active groups, such as hydroxyl groups, oxygen ions, and fluorine ions [18][19][20]. The 2D MXene materials show special nanostructures that easily induce oxidization reaction in environments with oxygen and water [21][22][23][24], and demonstrate special electronic [25], magnetic [26] and mechanical properties [27]. Additionally, MXene has a wide range of applications, such as for energy storage, catalysis, adsorption, hydrogen storage, sensors, and new polymer-reinforced composites.…”

Fabrication of tunable hierarchical MXene@AuNPs nanocomposites constructed by self-reduction reactions with enhanced catalytic performances

2D Metal Carbides