Flexible 2D Materials beyond Graphene: Synthesis, Properties, and Applications

Abstract 2D materials are now at the forefront of state‐of‐the‐art nanotechnologies due to their fascinating properties and unique structures. As expected, low‐cost, high‐volume, and high‐quality 2D materials play an important role in the applications of flexible devices. Although considerable progress has been achieved in the integration of a series of novel 2D materials beyond graphene into flexible devices, a lot remains to be known. At this stage of their development, the key issues concern how to make further improvements to high‐performance and scalable‐production. Herein, recent progress in the quest to improve the current state of the art for 2D materials beyond graphene is reviewed. Namely, the properties and synthesis techniques of 2D materials are first introduced. Then, both the advantages and challenges of these 2D materials for flexible devices are also highlighted. Finally, important directions for future advancements toward efficient, low‐cost, and stable flexible devices are outlined.