A growing family of two-dimensional materials have become exotic candidates for the
development of electrodes for the applications of energy storage and conversion due to their …

When single layers of 2D materials are stacked on top of one another with a small twist in
orientation, the resulting structure often involves incommensurate moiré patterns. In these …

Rising global energy demand, accompanied by environmental concerns linked to
conventional fossil fuels, necessitates a shift toward cleaner and sustainable alternatives …

The chemical heterointerfaces in hybrid electrode materials play an important role in
overcoming the intrinsic drawbacks of individual materials and thus expedite the in‐depth …

A host of innovative developments in technology have led by 2D materials owing to their
remarkable electronic and physical properties which opens doors for advanced research …

The rising demands for efficient regulating the intermittency of renewable energies as well
as the rapid spread of portable electronics or electric vehicles have put forward higher …

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 …

Constructing two dimensional (2D) van der Waals (vdW) heterostructures is a promising
strategy to overcome the shortcomings of individual 2D materials without losing their intrinsic …

In this work, we report the results of density functional theory (DFT) calculations on a van der
Waals (VdW) heterostructure formed by vertically stacking single-layers of tungsten disulfide …

The aim of this study is to investigate new materials that can be employed as cathode hosts
in Li-S batteries, which would be able to overcome the effect of the shuttling of soluble …