A grand family of two-dimensional (2D) materials and their heterostructures have been
discovered through the extensive experimental and theoretical efforts of chemists, material …

Recent progress in utilizing ultrafast light-matter interaction to control the macroscopic
properties of quantum materials is reviewed. Particular emphasis is placed on photoinduced …

The number of sensor nodes in the Internet of Things is growing rapidly, leading to a large
volume of data generated at sensory terminals. Frequent data transfer between the sensors …

Abstract Two-dimensional materials (2DMs) have been used widely in constructing
photodetectors (PDs) because of their advantages in flexible integration and ultrabroad …

Charge-coupled devices are widely used imaging technologies. However, their speed is
limited due to the complex readout process, which involves sequential charge transfer …

Abstract van der Waals (vdW) heterostructures based on atomically thin 2D materials have
led to a new era in next‐generation optoelectronics due to their tailored energy band …

Growing high-quality core-shell heterostructure nanowires is still challenging due to the
lattice mismatch issue at the radial interface. Herein, a versatile strategy is exploited for the …

Hot charge carriers in graphene exhibit fascinating physical phenomena, whose
understanding has improved greatly over the past decade. They have distinctly different …

Successfully designing an ideal solar cell requires an understanding of the fundamental
physics of photoexcited hot carriers (HCs) and the underlying mechanism of unique …

Optical-to-electrical conversion in graphene is a central phenomenon for realizing
anticipated ultrafast and low-power-consumption information technologies. However …