Abstract Two-dimensional (2D) nanomaterials have the potential to change the world by
providing materials with advanced functional applications. The 2D nanomaterials ie …

Self-trapped excitons (STEs) have attracted tremendous attention due to their intriguing
properties and potential optoelectronic applications. STEs are formed from the lattice …

The growing need for flexible electronic devices has triggered substantial research efforts
toward multifunctional surfaces. Herein, flexible and superhydrophobic surfaces based on …

2D photodetectors can considerably outperform their Si counterparts and thus appear
promising for contemporary optoelectronic circuits. However, limited charge separation …

Metal halide perovskites (MHPs) have been one of the most promising materials for the
photoelectric, electro‐optical, and all‐optical conversion devices, thanks to their excellent …

Benefiting from the attractive high carrier mobility, large absorption coefficient, and ambient
stability, group IV–VI compounds show excellent potential applications for optoelectronic …

The self‐trapped excitons (STEs) in soft van der Waals (vdW) materials have aroused
tremendous attention. The conventional methods to manipulate the STEs include the …

Excitons in semiconductors are a potential alternative to charge for manipulation and
storage of information. The reduced electrostatic screening in monolayers of two …

The investigation of twisted stacked few‐layer MoS2 has revealed novel electronic, optical,
and vibrational properties over an extended period. For the successful integration of twisted …

Polarized-sensitive image sensors are a kind of photodetector with great development
potential due to their enhanced ability to detect and identify the target objects from the …