An exemplary photodetector can be provided, which can include, for example, a metal contact, a metal stripe coupled to the metal contact. The semiconductor(s) can surround the metal stripe on at least three sides of the metal stripe. The semiconductor(s) can surround the metal stripe on at least four sides. The semiconductor can surround the metal stripe on at least five sides. A silicon dioxide layer can be coupled to the at least one semiconductor. A graphene layer located can be between the metal stripe and the semiconductor(s).

A detection panel and a manufacturing method of the same are provided. The detection panel includes: a photosensitive element configured to sense a first light beam incident to the photosensitive element to generate a photosensitive signal; a drive circuit configured to be coupled to the photosensitive element to acquire the photosensitive signal from the photosensitive element, the drive circuit including a switch element; and a reflective grating which is on a side of the drive circuit where the first light beam is incident, and is configured to reflect at least a portion of the first light beam incident toward the switch element.

The present disclosure provides a multi-functional electronic device with a black phosphorous-based single channel, wherein the device comprises: a black phosphorous-based single channel layer including a horizontal arrangement of a first semiconductor region and a second semiconductor region to define a horizontal junction therebetween, wherein the second semiconductor region has a lower hole-carrier density than the first semiconductor region; a first electrode connected to the first semiconductor region; a second electrode spaced from the first electrode and connected to the second semiconductor region; an ionic gel layer disposed on the first semiconductor region; and a gate electrode for receiving a gate voltage to generate an electric field in the channel layer.

The present disclosure provides a multi-functional electronic device with a black phosphorous-based single channel, wherein the device comprises: a black phosphorous-based single channel layer including a horizontal arrangement of a first semiconductor region and a second semiconductor region to define a horizontal junction therebetween, wherein the second semiconductor region has a lower hole-carrier density than the first semiconductor region; a first electrode connected to the first semiconductor region; a second electrode spaced from the first electrode and connected to the second semiconductor region; an ionic gel layer disposed on the first semiconductor region; and a gate electrode for receiving a gate voltage to generate an electric field in the channel layer.

A broad-spectral-bandwidth photodetector designed for use with all types of optical fibers used in different avionics networks and sensors and a process for fabricating such photodetectors. A Schottky barrier photodetector is provided that includes germanium, which has a broad spectral response to light in the ultraviolet to near-infrared range (220 to 1600 nm). The provision of a photodetector having a broad spectral response avoids the use of multiple different types of photodetectors and receivers in an avionics platform with different optical fiber networks and sensors.

A broad-spectral-bandwidth photodetector designed for use with all types of optical fibers used in different avionics networks and sensors and a process for fabricating such photodetectors. A Schottky barrier photodetector is provided that includes germanium, which has a broad spectral response to light in the ultraviolet to near-infrared range (220 to 1600 nm). The provision of a photodetector having a broad spectral response avoids the use of multiple different types of photodetectors and receivers in an avionics platform with different optical fiber networks and sensors.

The present disclosure advances the art by providing a method and system for forming electronic devices. In particular, and by example only, methods are described for forming devices for harvesting energy in the terahertz frequency range on flexible substrates, wherein the methods provide favorable accuracy in registration of the various device elements and facilitate low-cost R2R manufacturing.

The present disclosure advances the art by providing a method and system for forming electronic devices. In particular, and by example only, methods are described for forming devices for harvesting energy in the terahertz frequency range on flexible substrates, wherein the methods provide favorable accuracy in registration of the various device elements and facilitate low-cost R2R manufacturing.

Photodetectors and methods for dual band photo detection are disclosed. The photodetector includes a stack of semiconductor layers defining first and second unipolar photosensitive modules (UPMs) of respectively opposite doping polarities, and a contact layer including at least one of metal and semiconductor materials having doping polarity opposite to that of the second UPM. The first and second UPMs are adapted for sensing radiation of different respective first and second wavelengths ranges. The second UPM is located upon the first UPM thereby forming a first diode junction between the first and second UPMs. The contact layer is located on the second UPM thereby forming a second diode junction between the second UPM and the contact layer. The first and second diode junctions are configured to have respectively opposite conduction directions, enabling selective sensing of electrical signals associated with the first and second wavelengths ranges.

An optical device for detecting a first chemical species and a second chemical species contained in a specimen, which includes: a first optical sensor, which may be optically coupled to an optical source through the specimen and is sensitive to radiation having a wavelength comprised in a first range of wavelengths; and a second optical sensor, which may be optically coupled to the optical source through the specimen and is sensitive to radiation having a wavelength comprised in a second range of wavelengths, different from the first range of wavelengths.