The outstanding chemical and physical properties of 2D materials, together with their
atomically thin nature, make them ideal candidates for metaphotonic device integration and …

Neuromorphic devices provide a hardware platform to implement synaptic functions into
artificial electronic devices, which opens a new way to overcome the von Neumann …

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

Having accomplished progress in the versatile battlefields of optics, electronics, catalysis,
etc., two-dimensional (2D) materials are now venturing and excelling in yet another arena of …

Two-dimensional (2D) materials have sparked intense interest among the scientific
community owing to their extraordinary mechanical, optical, electronic, and thermal …

Each layer has a complete chemical structure without dangling bonds, which makes each
individual layer relatively stable. With isolation of a single atomic layer from graphite (called …

Phototransistors are light-sensitive devices featuring a high dynamic range, low-light
detection, and mechanisms to adapt to different ambient light conditions. These features are …

Graphene was discovered 16 years ago by Geim 1 and Novoselov. 2 Since then, this
multifunctional material has been used in a plethora of applications across biomedical …

The carrier generation in a photodetecting device plays a critical role in the enhancement of
photocurrent. Here we perform photocurrent measurements on graphene-based …

Graphene has exceptional optoelectronic and photonic capabilities for diverse applications
in solar cells, ultrafast lasers, touch screens, and photodetectors. Here, we report a …