Add to ORKGIn the present research major focus is on the synthesis of materials that can be easily used in small portable devices and as energy storage devices. Here we focused on a new family of 2D materials Ti3C2 (MXenes). Ti3AlC2 (MAX phase) was intercalated using selective etching of aluminium present in the MAX phase. The etching was done using HF in combination with HCl followed by delaminated in DMSO medium using ultrasonication. The synthesized samples were physically characterized via XRD, SEM, and EDX. The XRD diffractogram confirms the formation of MXene through its characteristic plane (002) arising at 2θ~9°. The morphological study revealed the stacked layered sheet like structure obtained through SEM. The elemental confirmation of remova...
MXenes have emerged as one of the most interesting material classes, owing to their outstanding phys...
MAX phases are transition metal carbides or nitrides, with a characteristic layered microstructure. ...
Angle-resolved XPS combined with argon ion etching was used to characterize the surface functional g...
In the present research major focus is on the synthesis of materials that can be easily used in smal...
Recently,two-dimensional (2D) transition metal carbon/nitride (MXene) material attracts much attenti...
International audienceMXenes are a new, and growing, family of 2D materials with very promising prop...
The synthesis of MXenes is a lively area of research in today’s materials sciencecommunity. Pure car...
We report the synthesis and characterization of a new laminated i-MAX phase, (V2/3Sc1/3)(2)AlC, with...
Understanding the etching mechanisms of MXene and obtaining direct insights into the influence of et...
The inherently nanolaminated Ti3AlC2 is one of the most studied MAX-phase materials. MAX-phases cons...
In this paper, the 3rd part of a series of publications on the sinterability and characteristics of ...
Recently, a new family of two-dimensional (2D) early transition metal carbides and carbonitrides, la...
Abstract MAX phases (Ti3SiC2, Ti3AlC2, V2AlC, Ti4AlN3, etc.) are layered ternary carbides/nitrides, ...
MXenes have been studied extensively for energy storage and other applications and are synthesized b...
Two dimensional (2D) materials have received growing interest because of their unique properties com...
MXenes have emerged as one of the most interesting material classes, owing to their outstanding phys...
MAX phases are transition metal carbides or nitrides, with a characteristic layered microstructure. ...
Angle-resolved XPS combined with argon ion etching was used to characterize the surface functional g...
In the present research major focus is on the synthesis of materials that can be easily used in smal...
Recently,two-dimensional (2D) transition metal carbon/nitride (MXene) material attracts much attenti...
International audienceMXenes are a new, and growing, family of 2D materials with very promising prop...
The synthesis of MXenes is a lively area of research in today’s materials sciencecommunity. Pure car...
We report the synthesis and characterization of a new laminated i-MAX phase, (V2/3Sc1/3)(2)AlC, with...
Understanding the etching mechanisms of MXene and obtaining direct insights into the influence of et...
The inherently nanolaminated Ti3AlC2 is one of the most studied MAX-phase materials. MAX-phases cons...
In this paper, the 3rd part of a series of publications on the sinterability and characteristics of ...
Recently, a new family of two-dimensional (2D) early transition metal carbides and carbonitrides, la...
Abstract MAX phases (Ti3SiC2, Ti3AlC2, V2AlC, Ti4AlN3, etc.) are layered ternary carbides/nitrides, ...
MXenes have been studied extensively for energy storage and other applications and are synthesized b...
Two dimensional (2D) materials have received growing interest because of their unique properties com...
MXenes have emerged as one of the most interesting material classes, owing to their outstanding phys...
MAX phases are transition metal carbides or nitrides, with a characteristic layered microstructure. ...
Angle-resolved XPS combined with argon ion etching was used to characterize the surface functional g...