A microelectronic unit includes a semiconductor element having a front surface to which a packaging layer is attached, and a rear surface remote from the front surface. The element includes a light detector including a plurality of light detector element arranged in an array disposed adjacent to the front surface and arranged to receive light through the rear surface. The semiconductor element also includes an electrically conductive contact at the front surface connected to the light detector. The conductive contact includes a thin region and a thicker region which is thicker than the thin region. A conductive interconnect extends through the packaging layer to the thin region of the conductive contact, and a portion of the conductive interconnect is exposed at a surface of the microelectronic unit.

There is provided a solid-state image pickup device including: a semiconductor substrate (21); a photodiode (11A, 11B) formed in the semiconductor substrate; a transistor (10) having a gate electrode (14) part or all of which is embedded in the semiconductor substrate, the transistor being configured to read a signal electric charge from the photodiode via the gate electrode; and an electric charge transfer layer (13) provided between the gate electrode and the photodiode.

Provided is a solid-state image pickup device that makes it possible to enhance image quality, and a manufacturing method thereof, and an electronic apparatus. A solid-state image pickup device includes a pixel section that includes a plurality of pixels, the pixels each including one or more organic photoelectric conversion sections, wherein the pixel section includes an effective pixel region and an optical black region, and the organic photoelectric conversion sections of the optical black region include a light-shielding film and a buffer film on a light-incidence side.

The present technology relates to a semiconductor device and electronic equipment in which a semiconductor device that suppresses the occurrence of noise by a leakage of light can be provided. A semiconductor device is configured which includes a light-receiving element 34, an active element for signal processing, and a light shielding structure 40 which is between the light-receiving element 34 and the active element to cover the active element and is formed of wirings 45 and 46. The semiconductor device further includes a first substrate on which the light-receiving element is formed, a second substrate on which the active element is formed, and a wiring layer which has a light shielding structure by the wirings which is formed on the second substrate, and in which the second substrate can be bonded to the first substrate through the wiring layer.

The present technology relates to a solid-state imaging apparatus, a manufacturing method therefor, and an electronic apparatus by which fine pixel signals can be suitably generated.

A charge accumulation section that is formed on a first semiconductor substrate and accumulates photoelectrically converted charges, a charge-retaining section that is formed on a second semiconductor substrate and retains charges accumulated in the charge accumulation section, and a transfer transistor that is formed on the first semiconductor substrate and the second semiconductor substrate and transfers charges accumulated in the charge accumulation section to the charge-retaining section are provided. A bonding interface between the first semiconductor substrate and the second semiconductor substrate is formed in a channel of the transfer transistor.

Embodiments of a hybrid imaging sensor and methods for pixel sub-column data read from the within a pixel array.

A Ge-on-Si photodetector constructed without doping or contacting Germanium by metal is described. Despite the simplified fabrication process, the device has responsivity of 1.24 A/W, corresponding to 99.2% quantum efficiency. Dark current is 40 nA at 4 V reverse bias. 3-dB bandwidth is 30 GHz.

An image sensor includes a substrate including an active region defined by a device isolation layer, a photoelectric conversion layer in the substrate, a floating diffusion region in the substrate at an edge of the active region, and a transfer gate on the active region. The transfer gate is in contact with a portion of the device isolation layer adjacent the active region.

There is provided a solid-state image pickup device including: a semiconductor substrate (21); a photodiode (11A, 11B) formed in the semiconductor substrate; a transistor (10) having a gate electrode (14) part or all of which is embedded in the semiconductor substrate, the transistor being configured to read a signal electric charge from the photodiode via the gate electrode; and an electric charge transfer layer (13) provided between the gate electrode and the photodiode.

A solid-state image pickup unit includes substrate; a red pixel including a red charge storage section; a blue pixel including a blue charge storage section; and a green pixel including a plurality of green charge storage sections, the red charge storage section and the blue charge storage section being provided in the substrate. Then, the plurality of green charge storage sections are arranged in the substrate along a thickness direction of the substrate.