The technological evolution has been progressing for centuries and will possibly increase at
a higher rate in the 21st century. Currently, in this age of nanotechnology, the discovery of …

MXenes are 2D materials with relatively high surface areas, high electrical conductivities,
functional transition metal surfaces, tunable surface chemistries, and solution processability …

Dynamical variation of the properties of materials in a controllable and reversible manner is
highly desirable for obtaining next-generation multifunctional materials. This work involves …

Rechargeable batteries play an increasingly important role in the field of energy storage. To
further improve battery performances, the controllable construction of heterostructures and …

Owing to the surge of energy storage devices, lithium and beyond‐lithium metal ion batteries
(MIBs) have gained considerable research attention. The large size and multivalent ions …

We designed MoS2/M2CS2 (M= Ti, V) heterostructures and investigated their
electrochemical performances to evaluate their possibility to serve as anode materials for …

In recent years, metal compound‐based heterojunctions have received increasing attention
from researchers as a candidate anode for lithium/sodium‐ion batteries, because …

The adsorption behavior of HCN molecule on perfect, O-vacancy defected, transition metal
(TM) doped Zr 2 CO 2/MoS 2 heterostructures was explored using density functional theory …

Titanium carbide (Ti3C2Tx) is highly regarded as a promising anode material for lithium-ion
batteries but suffers from sluggish kinetics with low storage capacity. In this work, a …

Exploiting two-dimensional (2D) metallic electrodes with high energy density and fast rate
performance is crucial in rechargeable ion batteries. Herein, the electronic properties of 2D …