Efficient light detection is central to modern science and technology. Current photodetectors
mainly use photodiodes based on crystalline inorganic elemental semiconductors, such as …

While organic electronics is mostly dominated by light‐emitting diodes, photovoltaic cells
and transistors, optoelectronics properties peculiar to organic semiconductors make them …

In the last years, the development of new materials as well as advanced fabrication
techniques have enabled the transformation of electronics from bulky rigid structures into …

Stable perovskite CH3NH3PbI3–x Cl x for a photodetector was prepared through spin-
coating of a fluorous polymer as a light protection layer. The best responsivity of …

Advances in organic semiconductors and the knowledge of their corresponding physical
and chemical properties drive the development of low-cost optoelectronic applications such …

Functional organic field‐effect transistors (OFETs) have attracted increasing attention in the
past few years due to their wide variety of potential applications. Research on functional …

van der Waals (vdW) heterostructures made of two-dimensional materials have been
demonstrated to be versatile architectures for optoelectronic applications due to strong light …

The essential functionality of photonic and electronic devices is contained in thin surface
layers leaving the substrate often to play primarily a mechanical role. Layer transfer of …

Carbon nanotubes possess outstanding mechanical, optical, and electronic properties and
have been proposed as a replacement for indium–tin oxide in curved and flexible organic …

Recently, photonic technologies have attracted lots of interests in the demand of high‐
performance sensor devices. In particular, multifunctional photodetectors based on low …