Shiying Guo

TL;DR: In this review, the latest theoretical and experimental progress made in the fundamental properties, fabrications and applications of 2D group-VA materials are explored, and perspectives and challenges for the future of this emerging field are offered.

TL;DR: A review of the historical work is provided for both theoretical predictions and experimental advances of 2D V-V binary materials, and their various intriguing electronic properties are discussed, including band structure, carrier mobility, Rashba effect, and topological state.

TL;DR: The sodiation/desodiation reaction mechanism of 2D few-layer antimonene (FLA) is proposed, showing that the FLA undergoes anisotropic volume expansion along the a/b plane and exhibits reversible crystalline phase evolution during cycling.

TL;DR: It is hoped that the improved manipulation techniques of bismuthene, along with its unique properties, might even enable 2D Bi to play an important role in future energy-related twistronics.

TL;DR: In situ transmission electron microscopy is used to disclose the structure and phase transitions of layered bismuth (few-layer bism Ruth nanosheets) during Na+ intercalation and alloying processes and finds that the metastable c-Na3Bi devotes to buffer the dramatic structure changes from thermodynamic stable h-Na2Bi, which unveils the origin of volume expansion for bismUTH and has important consequences for 2D in-plane structure.