摘要:
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.
摘要:
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.
摘要:
Disclosed is a MEMS variable capacitor, the capacitor including a first electrode, a second electrode that is floated on an upper surface of the first electrode, and a third electrode capable of variably-adjusting a capacitance value by adjusting a gap between the first electrode and the second electrode.
摘要:
A photodiode of a CMOS image sensor and a method for manufacturing the same are provided, in which ions implanted in the vicinity of a device isolation film are prevented from being diffused into a photodiode region to reduce a dark current. The photodiode of a CMOS image sensor includes a heavily doped P-type semiconductor substrate, a lightly doped P-type epitaxial layer formed on the semiconductor substrate, a gate electrode formed on the epitaxial layer, a device isolation film and an N-type photodiode region formed in the epitaxial layer, an insulating film formed on the epitaxial layer to open a portion between the device isolation film and the photodiode region, and a heavily doped P-type diffusion region formed in the epitaxial layer between the device isolation film and the photodiode region.
摘要:
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.
摘要:
A wafer bonding apparatus and method are provided. The wafer bonding apparatus can include an aligning unit, and the aligning unit can include a rotating roller for rotating at least two wafers, an aligning bar for aligning the at least two wafers, and a notch alignment sensor for sensing at least two notches of each of the at least two wafers.
摘要:
A CMOS image sensor and a manufacturing method thereof are disclosed. The gates of the transistors are formed in an active region of a unit pixel, and at the same time, a passivation layer is formed on an edge portion of the active region of a photodiode to have the same laminate structure as the gates of the transistors. Impurities for a diffusion region of the photodiode are ion-implanted into the active region for the photodiode, after the laminate structure is formed. The passivation layer prevents the edge portion from being damaged by ion implantation at the boundary or interface between the photodiode diffusion region and an isolation layer, which reduces dark current and/or leakage current of the CMOS image sensor.
摘要:
A CMOS image sensor and a manufacturing method are disclosed. The gates of the transistors are formed in the active region of the unit pixel, and a diffusion region for the photo diode is defined by an ion implantation of impurities to the semiconductor substrate. The patterns of the photoresist that are the masking layer against ion implantation are formed on the semiconductor substrate in such a manner that they have the boundary portion of the isolation layer so as not to make the boundary of the defined photo diode contact with the boundary of the isolation layer. Damages by an ion implantation of impurities at the boundary portion between the diffusion region for the photo diode and the isolation layer are prevented, which reduces dark current of the COMS image sensor.
摘要:
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.
摘要:
A CMOS image sensor and a method for fabricating the same are disclosed, in which the boundary between an active region and a field region is not damaged by ion implantation. The method for fabricating a CMOS image sensor includes forming a trench in a first conductive type semiconductor substrate, forming a first conductive type heavily doped impurity ion region in the semiconductor substrate at both sides of the trench, forming a device isolation film by interposing an insulating film between the trench and the device isolation, sequentially forming a gate insulating film and a gate electrode on the semiconductor substrate, and forming a second conductive type impurity ion region for a photodiode in the semiconductor substrate between the gate electrode and the device isolation film.