Pu Huang

TL;DR: In this paper, the authors investigated the many-body effect, carrier mobility, and device performance of monolayer (ML) hexagonal arsenene and antimonene based on accurate ab initio methods.

TL;DR: Density functional theory (DFT) calculations are adopted to explore the electronic characteristics ofGDY, which provides evidence for the performance enhancement of GDY in alkaline electrolyte and pave the way for the exploration of GDy heterojunction-based photodetection.

TL;DR: Te@Se roll-to-roll nanotubes with different selenium (Se) contents synthesized by epitaxial growth of Se on Te Nanotubes are employed to fabricate working electrodes for photoelectrochemical (PEC)-type broadband photodetection, and exhibit not only a preferably enhanced capacity for self-powered broadband photODetection but also significantly improved photocurrent density and stability in various aqueous environments.

TL;DR: The InSe/BP heterostructure can thus be widely used in nanoscale InSe-based field-effect transistors, photodetectors and photovoltaic devices due to its type-II band alignment and high carrier mobility.

TL;DR: The authors show the synthesis of monolayer Sb2O3 molecular crystals on mica substrates by passivator-assisted vapor deposition, which can be extended to the controlled growth of other two-dimensional inorganic molecular crystals and open up opportunities for potential molecular electronic devices.