Abstract:
An image sensor may include a color filter layer on a semiconductor substrate; and a microlens on the color filter layer and including a non-photosensitive insulating layer.
Abstract:
Disclosed are an alkyl(meth)acrylate-based thermoplastic resin composition and a thermoplastic resin with modified scratch resistance and yellowness. The alkyl(meth)acrylate-based thermoplastic resin composition provides improved scratch resistance and low yellowness index while maintaining transparency, flowability, and impact strength, even when the total content of the vinyl cyan-based monomer contained in the resin composition is reduced to a level unattainable by conventional techniques, and the content of the alkyl(meth)acrylate-based monomer is increased.
Abstract:
Provided are a method of preparing a transparent copolymer resin by continuous bulk polymerization of a polymerization mixture obtained by adding a phenol-based antioxidant and/or a phosphate-based antioxidant, a chain transfer agent, and an organic peroxide initiator to a monomer mixture including a styrene monomer, an acrylate monomer, and an acrylonitrile monomer, and a transparent copolymer resin prepared by the method, having good chemical resistance, fluidity, and discoloration resistance.
Abstract:
An image sensor and a fabricating method thereof are provided. The image sensor includes a plurality of pixels disposed in an active region and dummy pixels disposed in a peripheral region. An interlayer dielectric layer has a first thickness in the active region and a second thickness thinner than the first thickness in the peripheral region. Color filters are disposed in the active region, and a light blocking member is disposed in the peripheral region. There is substantially no step difference between the color filters and the light blocking member.
Abstract:
Provided are an electronic cooling device and a fabrication method thereof. The method may include forming an insulating layer on a semiconductor substrate, forming first and second silicide layers on the insulating layer, forming separate paired p-type and n-type semiconductors on each of the first and second silicide layers, forming a first interlayer dielectric (ILD) layer on the p-type and n-type semiconductors, exposing top surfaces of the n-type and p-type semiconductors, forming a third silicide layer on one semiconductor on each of the first and second silicide layers, forming a second ILD layer on the third silicide layer, and etching the second and first ILD layers to form contact holes exposing top surfaces of the first and second silicide layers.
Abstract:
CMOS image sensor and method for fabricating the same, the CMOS image sensor including a second conductive type semiconductor substrate having an active region and a device isolation region defined therein, wherein the active region has a photodiode region and a transistor region defined therein, a device isolating film in the semiconductor substrate of the device isolation region, a first conductive type impurity region in the semiconductor substrate of the photodiode region, the first conductive type impurity region being spaced a distance from the device isolation film, and a second conductive type first impurity region in the semiconductor substrate between the first conductive type impurity region and the device isolation film, thereby reducing generation of a darkcurrent at an interface between the photodiode region and a field region.
Abstract:
An image sensor and a method for fabricating the same are disclosed, in which a partial light-shielding layer is additionally arranged on a path of a particular colored light, for example, a red colored light that may cause excessive permeation, to partially shield the corresponding red colored light in a state that red colored light, green colored light and blue colored light are permeated into each photodiode of a semiconductor substrate, so that the permeation position of the red colored light coincides with that of the green colored light and the blue colored light each having the wavelength shorter than that of the red colored light, thereby normally generating optical charges caused by the red colored light in an effective depletion area of the photodiode like those caused by the green colored light and the blue colored light. The permeation position of a red colored light, a green colored light and a blue colored light coincides with one another within a depletion area of a semiconductor substrate to obtain an optimal effective ratio from respective optical charges and the uniform quantity of the respective optical charges can be transferred/discharged to an interpolation circuit by signal processing transistors, thereby effectively displaying color images having excellent display quality (in color and resolution) approximate to a ratio of 1:1:1 with red, green and blue.
Abstract:
A CMOS image sensor and a method for manufacturing the same are provided, in which a nitride layer for passivation is used as a microlens to reduce topology. The CMOS image sensor includes an upper metal layer partially deposited on a dielectric layer; a first nitride layer deposited on the upper metal layer; an undoped silicon glass layer deposited on the first nitride layer and polished by chemical-mechanical polishing; color filter array elements deposited and exposed on the undoped silicon glass layer and polished by the chemical-mechanical polishing; and a second nitride layer deposited on the first nitride layer and the color filter array elements and transfer-etched after forming a sacrificial microlens on the second nitride layer.
Abstract:
A method for manufacturing structures of a CMOS image sensor. The method comprises the steps of depositing a gate insulating layer and a conductive layer on a semiconductor substrate; depositing an ion implantation barrier layer on the conductive layer; patterning the deposited gate insulating layer, conductive layer and ion implantation barrier layer to form a patterned, composite gate insulating layer, gate electrode and ion implantation barrier structure; forming a second photosensitive layer pattern to define a photodiode region; and implanting low-concentration dopant ions into the substrate using the second photosensitive layer pattern as an ion implantation mask to form a low-concentration dopant region within the photodiode region.
Abstract:
A CMOS image sensor and method for fabricating the same, wherein the CMOS image sensor has minimized dark current at the boundary area between a photodiode and an isolation layer. The present invention includes a first-conductivity-type doping area formed in the device isolation area of the substrate, the first-conductivity-type doping area surrounding the isolation area and a dielectric layer formed between the isolation layer and the first-conductivity-type doping area, wherein the first-conductivity-type doping area and the dielectric layer are located between the isolation layer and a second-conductivity-type diffusion area.