CHUN-WEI CHENFei, L.L.FeiLu, L.L.LuLi, B.B.LiRaza, S.S.RazaShen, L.L.ShenLin, H.H.Lin2023-03-302023-03-302023-04-0124685194https://scholars.lib.ntu.edu.tw/handle/123456789/629918Recent achievements in the construction of graphene-based materials with superwetting properties have been developed and received significant research attention. Deeply understanding and effectively controlling the wettability of graphene-based materials is crucial for its fundamental research and functional application. Therefore, in this review, after a brief introduction to the intrinsic wettability of graphene and graphene oxide (GO). The strategies for manipulating the wettability of graphene-based materials to achieve superwetability are summarized and discussed, including chemical composition regulation and multiscale structure construction. Then, we also propose a framework for the promising applications of graphene-based superwetting materials in oil-water separation, droplet manipulation, self-cleaning coatings and energy-related applications. Finally, we provide our views and recommendations on the challenges and future research directions in this emerging and promising research field.Chemical composition | Graphene | Multiscale structure | Superwetability | Wettability manipulatingother10.1016/j.mtchem.2023.1014522-s2.0-85149750362https://api.elsevier.com/content/abstract/scopus_id/85149750362