An image pickup element 10 includes a first electrode 21, a charge accumulation electrode 24 that is arranged apart from the first electrode 21, a photoelectric conversion unit 23 that contacts the first electrode 21 and is formed above the charge accumulation electrode 24 via an insulation layer 82, and a second electrode 22 formed on the photoelectric conversion unit 23. The photoelectric conversion unit 23 includes, from the second-electrode side, a photoelectric conversion layer 23A, and an inorganic oxide semiconductor material layer 23B including In.sub.aGa.sub.bSn.sub.cO.sub.d, and 0.30≤b/(a+b+c)≤0.50 and b≥c are satisfied.

Each imaging pixel provided in a solid-state imaging device includes a charge accumulation part which is a diffusion region formed in a substrate, a gate electrode formed lateral to the charge accumulation part on the substrate, an insulating film formed on the charge accumulation part, and a contact plug connected to the charge accumulation part so as to penetrate the insulating film and made of semiconductor. The contact plug is, at a lower part thereof, embedded in the insulating film, and is, at an upper part thereof, exposed through the insulating film. Silicide is formed on the upper part of the contact plug, and the charge accumulation part and the gate electrode are covered by the insulating film.

A detection device includes a photodiode, and a thin-film transistor coupled to the photodiode. The thin-film transistor includes a semiconductor layer between a light-blocking layer and the photodiode, and an electrode layer between the semiconductor layer and the photodiode, and the electric layer includes a source electrode and a drain electrode of the thin-film transistor. The source electrode extends to a position facing the light-blocking layer with the semiconductor layer interposed therebetween.

According to one embodiment, a flexible substrate including an insulating base including an island-shaped portion, a first to fourth strip portion, and an electrical element, wherein the electrical element includes a lower electrode, an upper electrode and an active layer, the lower electrode includes, in plan view, a first to fourth protruding portion, the first protruding portion overlaps the first strip portion, the second protruding portion overlaps the second strip portion, the third protruding portion overlaps the third strip portion, and the fourth protruding portion overlaps the fourth strip portion.

In accordance with various embodiments of the disclosed subject matter, a display panel, a fabricating method thereof, and a related display apparatus are provided. In some embodiments, the display panel comprises: a base substrate comprising a display region and a peripheral region, wherein the peripheral region surrounds the display region; a light emitting device in the display region; a buffer layer on the peripheral region; and a first sealing layer on the buffer layer and the light emitting device.

The present disclosure provides a photovoltaic device and a method for forming the photovoltaic device. The photovoltaic device comprises a first solar cell structure having a photon absorbing layer comprising an organic material having a first bandgap; and a second solar cell structure having a photon absorbing layer comprising a material that has a Perovskite structure and having a second bandgap. The first and second solar cell structures are positioned at least partially onto each other.

A transparent photovoltaic cell and method of making are disclosed. The photovoltaic cell may include a transparent substrate and a first active material overlying the substrate. The first active material may have a first absorption peak at a wavelength greater than about 650 nanometers. A second active material is disposed overlying the substrate, the second active material having a second absorption peak at a wavelength outside of the visible light spectrum. The photovoltaic cell may also include a transparent cathode and a transparent anode.

A photoconductive infrared detector comprising a substrate, an electrode geometry, and a layer of intrinsically conductive or photoconductive donor-acceptor conjugated polymer.

The present disclosure relates to an image pickup device that enables inhibition of occurrence of color mixture or noise, and an electronic apparatus. The image pickup device of the present disclosure includes an image plane phase difference detection pixel for obtaining a phase difference signal for image plane phase difference AF. The image plane phase difference detection pixel includes: a first photoelectric conversion section that generates an electric charge in response to incident light; an upper electrode section that is one of electrodes disposed facing each other across the first photoelectric conversion section, the upper electrode section being formed on an incident side of the incident light on the first photoelectric conversion section; and a lower electrode section that is another of the electrodes disposed facing each other across the first photoelectric conversion section, the lower electrode section being formed on an opposite side of the incident side of the incident light on the first photoelectric conversion section, the lower electrode section being multiple-divided at a position that avoids a center of the incident light. The present disclosure is applicable to image sensors.

A photoelectric conversion element according to an embodiment of the present disclosure includes: a first electrode; a second electrode opposed to the first electrode; and an organic photoelectric conversion layer provided between the first electrode and the second electrode and formed using a plurality of materials having average particle diameters different from each other, the plurality of materials including at least fullerene or a derivative thereof, and a particle diameter ratio, of a first material having a smallest average particle diameter among the plurality of materials with respect to a second material having a largest average particle diameter among the plurality of materials, is 0.6 or less.