Conventional semiconductors such as silicon‐and indium gallium arsenide (InGaAs)‐based
photodetectors have encountered a bottleneck in modern electronics and photonics in terms …

As a burgeoning family of crystalline porous copolymers, covalent organic frameworks
(COFs) allow precise atomic insertion of organic components in the topology construction to …

As one of the most appealing two-dimensional materials, graphene (Gr) has attracted
tremendous research interest in optoelectronic device applications for its plenty of …

Abstract 2D materials possess superior optoelectronic properties, such as ultrahigh mobility
and broadband photoresponse, making them one of the most vital platforms for diversified …

Graphene-based photodetectors have recently received much attention for their potential to
detect weak signals and their short response time, both of which are crucial in applications …

Composites or hybrid materials offer diverse properties not achievable in pure materials.
Here we critically review the interesting and controllable fluorescence and photothermal …

A simple mechanical exfoliation of bulk graphite can guarantee the formation of a high-
quality, stable 2D carbon-based van der Waals allotrope (graphene). Thus, the industrial …

The unique properties of hybrid heterostructures have motivated the integration of two or
more different types of nanomaterials into a single optoelectronic device structure. Despite …

Graphene has emerged as a revolutionary material in different fields of science and
engineering due to its extraordinary properties such as: high electron mobility, high thermal …

Two dimension (2D) material-based photodetectors usually indicate excellent properties
such as ultrafast and broadband response, but the atomic thickness of 2D materials usually …