Light detection devices and related methods are provided. The devices may comprise a reaction structure for containing a reaction solution with a relatively high or low pH and a plurality of reaction sites that generate light emissions. The devices may comprise a device base comprising a plurality of light sensors, device circuitry coupled to the light sensors, and a plurality of light guides that block excitation light but permit the light emissions to pass to a light sensor. The device base may also include a shield layer extending about each light guide between each light guide and the device circuitry, and a protection layer that is chemically inert with respect to the reaction solution extending about each light guide between each light guide and the shield layer. The protection layer prevents reaction solution that passes through the reaction structure and the light guide from interacting with the device circuitry.

An optical semiconductor device with cascade vias is disclosed. The semiconductor device a logic die having a core circuit area and a logic peripheral circuit area; a memory die positioned on the logic die and having a memory cell area and a memory peripheral area; a first inter-die via positioned in the memory peripheral area; a landing pad positioned on the first inter-die via; and a sensor die positioned on the memory die and including a sensor pixel area and a sensor peripheral area, a first intra-die via positioned in the sensor peripheral area. The first inter-die via and the first intra-die via are electrically coupled through the landing pad in a cascade manner.

In one embodiment described herein, a device includes optically reflective metal patches positioned within a dielectric substrate. A dielectric barrier layer separates the reflective metal patches and the dielectric substrate to prevent diffusion of the reflective metal into the dielectric substrate. An optically transparent dielectric spacer layer is deposited thereon, and an array of metal elements extend from the dielectric spacer layer. A dielectric coating is applied to the top wall and sidewalls of each metal element. A conductive barrier material is positioned between the base wall of each metal element and the dielectric spacer layer. A tunable dielectric material is positioned within the gaps between adjacent metal elements.

A window structure includes a window, a design layer structure on the window, a light shield layer on the design layer structure, and a light absorption layer. The design layer structure includes a first hole exposing a portion of the window. The light shield layer includes a second hole in fluid communication with the first hole. The light absorption layer covers at least a portion of the design layer structure exposed by the first and second holes, and includes a third hole exposing a portion of the window. By including the light absorption layer of a gray or black color to cover exposed portions of the design layer structure, a vignette about an image caused by the design layer structure is prevented.

A method of manufacturing a semiconductor device includes: forming, on a cover glass, a film having a predetermined specific gravity and configured to shield an alpha ray that arises from the cover glass; and bonding the cover glass on which the film is formed and an image pickup device, by filling a transparent resin between the cover glass and the image pickup device.

A color separation element array, an image sensor including the color separation element array, and an electronic device including the color separation element array are provided. The color separation element array includes a plurality of color separation elements configured to separate an incident light into a color light according to wavelength bands in a transparent layer, the plurality of color separation elements including a first element and a second element having different refractive indices, and the first element and second element being arranged in a horizontal direction.

An optical sensor arrangement, in particular an optical proximity sensor arrangement comprises a three-dimensional integrated circuit further comprising a first layer comprising a light-emitting device, a second layer comprising a light-detector and a driver circuit. The driver circuit is electrically connected to the light-emitting device and to the light-detector to control the operation of the light-emitting device and the light-detector. A mold layer comprising a first light-barrier between the light-emitting device and the light-detector configured to block light from being transmitted directly from the light-emitting device to the light-detector.

A method of manufacturing a semiconductor device includes: forming, on a cover glass, a film having a predetermined specific gravity and configured to shield an alpha ray that arises from the cover glass; and bonding the cover glass on which the film is formed and an image pickup device, by filling a transparent resin between the cover glass and the image pickup device.

The present invention relates to a method for manufacturing a bispectral matrix detector comprising the following steps: providing a monotype matrix detector; depositing, on the sensitive surface (3) of the monotype matrix detector, a dual-band interference filter (5) allowing the radiation in the first and second frequency bands to pass therethrough; depositing a first interference filter (4a) vertically in line with photosites (31a) intended for sensing in the first frequency band; depositing a second interference filter (4b) vertically in line with photosites (31b) intended for sensing in the second frequency band, one of the first (4a) and second (4b) interference filters being a low-pass filter cutting the second frequency band, and the other a high-pass filter cutting the first frequency band.

A window structure includes a window, a design layer structure on the window, a light shield layer on the design layer structure, and a light absorption layer. The design layer structure includes a first hole exposing a portion of the window. The light shield layer includes a second hole in fluid communication with the first hole. The light absorption layer covers at least a portion of the design layer structure exposed by the first and second holes, and includes a third hole exposing a portion of the window. By including the light absorption layer of a gray or black color to cover exposed portions of the design layer structure, a vignette about an image caused by the design layer structure is prevented.