Proposed are an organic-inorganic composite synthetic resin using a highly flame-retardant organically modified nanoparticle, and a production method thereof. The method for producing the organic-inorganic composite synthetic resin using a highly flame-retardant organically modified nanoparticle a includes the steps of: adding and stirring metal ion-based phosphinate, melamine cyanurate, and nanoclay to a container containing an aqueous or oily solvent, applying ultrasonic waves and high pressure energy to the stirred solution to prepare a highly flame-retardant organically modified silicate solution through a chemical bonding, and then adding a synthetic resin to form synthetic leather and foam used as life consumer goods to the silicate solution, processing and drying it.

Proposed are an organic-inorganic composite synthetic resin using a highly flame-retardant organically modified nanoparticle, and a production method thereof. The method for producing the organic-inorganic composite synthetic resin using a highly flame-retardant organically modified nanoparticle includes the steps of: adding and stirring metal ion-based phosphinate, melamine cyanurate, and nanoclay to a container containing an aqueous or oily solvent, applying ultrasonic waves and high pressure energy to the stirred solution to prepare a highly flame-retardant organically modified silicate solution through a chemical bonding, and then adding a synthetic resin to form synthetic leather and foam used as life consumer goods to the silicate solution, processing and drying it.

Provided is an electronic device that decreases a width of a bezel, and restricts a decrease in an image quality of an image captured with a camera. The electronic device includes: a displaying unit;

and a capture unit arranged on a side opposite a displaying surface of the displaying unit. The capture unit includes: a plurality of photoelectric-conversion units that converts light that has been made to enter through the displaying unit into electricity; and a plurality of polarization elements arranged on a light entering side of at least one photoelectric-conversion unit of the plurality of photoelectric-conversion units.

The photoelectric conversion device includes a plurality of pixels arranged to form a plurality of rows and a plurality of columns, wherein each of the plurality of pixels includes a photoelectric conversion unit, a plurality of output lines, wherein at least two of the plurality of output lines are arranged in each of the plurality of columns and each of the plurality of output lines is connected to a pixel of a corresponding column, a scanning circuit configured to sequentially select plural rows that are a part of the plurality of rows, and a selection circuit that includes an input unit to which a control signal different from a control signal input to the scanning circuit is input and is configured to select a row that is the other part of the plurality of rows.

The photoelectric conversion device includes a plurality of pixels arranged to form a plurality of rows and a plurality of columns, wherein each of the plurality of pixels includes a photoelectric conversion unit, a plurality of output lines, wherein at least two of the plurality of output lines are arranged in each of the plurality of columns and each of the plurality of output lines is connected to a pixel of a corresponding column, a scanning circuit configured to sequentially select plural rows that are a part of the plurality of rows, and a selection circuit that includes an input unit to which a control signal different from a control signal input to the scanning circuit is input and is configured to select a row that is the other part of the plurality of rows.

Provided is an electronic device that decreases a width of a bezel, and restricts a decrease in an image quality of an image captured with a camera. The electronic device includes: a displaying unit; and a capture unit arranged on a side opposite a displaying surface of the displaying unit. The capture unit includes: a plurality of photoelectric-conversion units that converts light that has been made to enter through the displaying unit into electricity; and a plurality of polarization elements arranged on a light entering side of at least one photoelectric-conversion unit of the plurality of photoelectric-conversion units.

Provided is an electronic device that decreases a width of a bezel, and restricts a decrease in an image quality of an image captured with a camera. The electronic device includes: a displaying unit; and a capture unit arranged on a side opposite a displaying surface of the displaying unit. The capture unit includes: a plurality of photoelectric-conversion units that converts light that has been made to enter through the displaying unit into electricity; and a plurality of polarization elements arranged on a light entering side of at least one photoelectric-conversion unit of the plurality of photoelectric-conversion units.

An image sensor includes a pixel array that includes pixel array circuitry; and a read path that includes read path circuitry. The image sensor includes one or more of a capacitive element and a capacitive enable circuit, a temperature sensor, a number of pixel types, and/or selectable pixel characteristics.

An image sensor includes a pixel array that includes pixel array circuitry; and a read path that includes read path circuitry. The image sensor includes one or more of a capacitive element and a capacitive enable circuit, a temperature sensor, a number of pixel types, and/or selectable pixel characteristics.

It is an object to extend event signal detection periods. An imaging device according to the present technology includes a solid-state imaging device including a plurality of pixels each including a light-receiving portion that photoelectrically converts incident light to generate an electrical signal and a detection circuit that executes event signal detection by comparing the amount of change in the electrical signal generated by the light-receiving portion with a predetermined threshold value to obtain a detection result, and a control unit that performs control so that different pixels have different timing for an event detection period to cause the detection circuit to execute the event signal detection.