Atomically Thin MoS2: A Versatile Nongraphene 2D Material

Two‐dimensional inorganic materials are emerging as a premiere class of materials for fabricating modern electronic devices. The interest in 2D layered transition metal dichalcogenides is especially high. Particularly, 2D MoS2 is being heavily researched due to its novel functionalities and its suitability for a wide range of electronic and optoelectronic applications. In this article, the progress in mono/few layer(s) MoS2 research is reviewed by focusing primarily on the layer dependent evolution of crystal, phonon, and electronic structure. The review includes extensive detail into the methodologies adapted for single or few layer(s) MoS2 growth. Further, the review covers the versatility of 2D MoS2 for a broad range of device applications. Recent advancements in the field of van der Waals heterostructures are also highlighted at the end of the review. The recent emergence of atomically thin 2D materials beyond graphene opened up the platform for new device designs. This review covers recent progress in atomically thin MoS2 research, including a description of layer‐dependent evolution of the crystal structure, phonon properties and electronic structure, and various methodologies adapted for single‐ or few‐layer MoS2 growth. It also covers the versatility of 2D MoS2 for a broad range of electronic and optoelectronic device applications.