Surface modification of Ti3C2Tx using terminal groups and heteroatoms with excellent electrochemical performance in supercapacitors

Abstract: Surface modification of Ti3C2Tx greatly enhances its charge storage mechanism as an electrode material. Herein, we demonstrate the role of surface terminals and heteroatoms in the electrochemical behavior of Ti3C2Tx electrodes. The abundance of –F and –OH surface terminals may be obtained with an acidic or base medium while etching of Ti3C2Tx. Further treatment with ammonia or glucose may help to get a thin layer of N or C at the surface of Ti3C2Tx. It is found that abundant reaction sites and larger interlaye… Show more

“…Commonly, high energy treatments, such as temperature annealing or plasma processing, are used to tune the surface chemistry of MXenes. 10,[35][36][37] However, such rough methods can damage the MXenes structure and lead to a loss of functionality of the akes. As an alternative, few chemical approaches capable of changing the akes surface composition were proposed.…”

Plasmon assisted Ti₃C₂T_x grafting and surface termination tuning for enhancement of flake stability and humidity sensing performance

“…Commonly, high energy treatments, such as temperature annealing or plasma processing, are used to tune the surface chemistry of MXenes. 10,[35][36][37] However, such rough methods can damage the MXenes structure and lead to a loss of functionality of the akes. As an alternative, few chemical approaches capable of changing the akes surface composition were proposed.…”

Plasmon assisted Ti₃C₂T_x grafting and surface termination tuning for enhancement of flake stability and humidity sensing performance

Functionalization Ti3C2Tx as highly sensitive and selective SERS substrate by reduction rapid synthesis strategy

Gallium hydroxide coated Ti3C2Tx MXene for high-performance asymmetric supercapacitor