Low dimensional materials including quantum dots, nanowires, 2D materials, and so forth
have attracted increasing research interests for electronic and optoelectronic devices in …

Van der Waals heterojunctions are fast‐emerging quantum structures fabricated by the
controlled stacking of two‐dimensional (2D) materials. Owing to the atomically thin …

Two‐dimensional (2D) materials have drawn tremendous attention in recent years. Being
atomically thin, stacked with van der Waals force and free of surface chemical dangling …

Quantum information science and engineering (QISE)—which entails the use of quantum
mechanical states for information processing, communications, and sensing—and the area …

MoS2 crystals exhibit excellent catalytic properties and great potential for photocatalytic
production of solar fuels such as hydrogen gas. In this regard, the photocatalytic stability of …

As-grown transition metal dichalcogenides are usually chalcogen deficient and therefore
contain a high density of chalcogen vacancies, deep electron traps which can act as …

Blue energy relies on the chemical potential difference between solutions of high and low
ionic concentrations, potentially providing an independent energy source at estuaries …

We demonstrate the reduction of the inhomogeneous linewidth of the free excitons in
atomically thin transition metal dichalcogenides (TMDCs) MoSe2, WSe2 and MoS2 by …

Abstract 2D Transition Metal Dichalcogenides hold a promising potential in future
optoelectronic applications due to their high photoresponsivity and tunable band structure …

A high‐performance 2D photodetector based on a bilayer structure comprising a WSe2
monolayer and CH3NH3PbI3 organolead halide perovskite is reported. High performance is …