Abstract: Provided is a vapor-liquid phase change cooling device, which may be manufactured with no limitation of thickness. The cooling device includes a first thin plate including a groove-shaped capillary region, an evaporator section for evaporating a working fluid injected from outside, and a condenser section having a vapor condensation space for condensing the evaporated working fluid, a second thin plate having a vapor pathway for transporting the evaporated working fluid to the condenser section, and a third thin plate having a liquid pathway for transporting the working fluid condensed in the condenser section to the evaporator section.

Abstract: A nonvolatile programmable switch device using a phase-change memory device and a method of manufacturing the same are provided. The switch device includes a substrate, a first metal electrode layer disposed on the substrate and including a plurality of terminals, a phase-change material layer disposed on the substrate and having a self-heating channel structure, the phase-change material layer having a plurality of introduction regions electrically contacting the terminals of the first metal electrode layer and a channel region interposed between the introduction regions, an insulating layer disposed on the first metal electrode layer and the phase-change material layer, a via hole disposed on the first metal electrode layer, and a second metal electrode layer disposed to fill the via hole.

Abstract: Provided is an apparatus for driving an artificial retina using a medium-range power transmission technique. The apparatus can wirelessly transmit power to an artificial retina circuit within a medium range of about 1 m using resonance between a first coil equipped around a user's waist and a second coil implanted in a user's eye. Thus, it is possible to solve the difficulty of implanting a coil in a lens, provide convenience to a user by eliminating the necessity of artificial glasses, and stably supply power to the artificial retina circuit. In addition, it is possible to remarkably lessen the difficulty in connecting the second coil with the artificial retina circuit in an eye.

Abstract: Provided are resistive materials for a microbolometer, a method for preparation of resistive materials and a microbolometer containing the resistive materials. The resistive materials for the microbolometer include an alloy of silicon and antimony or an alloy of silicon, antimony and germanium, which has a high TCR and a low resistance.

Abstract: Provided are a multilayer-structured bolometer and a method of fabricating the same. In the multilayer-structured bolometer, the number of support arms supporting the body of a sensor structure is reduced to one, and two electrodes are formed on the one support arm. Thus, the sensor structure is electrically connected with a substrate through the only one support arm. According to the multilayer-structured bolometer and method of fabricating the bolometer, the thermal conductivity of the sensor structure is considerably reduced to remarkably improve sensitivity to temperature, and also the pixel size of the bolometer is reduced to obtain high-resolution thermal images. In addition, the multilayer-structured bolometer can have a high fill-factor due to a sufficiently large infrared-absorbing layer, and thus can improve infrared absorbance.

Abstract: A phase-change memory device in which a phase-change material layer has a multilayered structure with different compositions and a method of fabricating the same are provided. The phase-change memory device includes a first electrode layer formed on a substrate, a heater electrode layer formed on the first electrode layer, an insulating layer formed on the heater electrode layer and having a pore partially exposing the heater electrode layer, a phase-change material layer formed to fill the pore and partially contacting the heater electrode layer, and a second electrode layer formed on the phase-change material layer.

Abstract: A phase change memory device and a method of fabricating the same are provided. A phase change material layer of the phase change memory device is formed of germanium (Ge)-antimony (Sb)-Tellurium (Te)-based Ge2Sb2+xTe5 (0.12?x?0.32), so that the crystalline state is determined as a stable single phase, not a mixed phase of a metastable phase and a stable phase, in phase transition between crystalline and amorphous states of a phase change material, and the phase transition according to increasing temperature directly transitions to the single stable phase from the amorphous state. As a result, set operation stability and distribution characteristics of set state resistances of the phase change memory device can be significantly enhanced, and an amorphous resistance can be maintained for a long time at a high temperature, i.e., around crystallization temperature, and thus reset operation stability and rewrite operation stability of the phase change memory device can be significantly enhanced.

Abstract: Provided are a microbolometer having a cantilever structure and a method of manufacturing the same, and more particularly, a microbolometer having a three-dimensional cantilever structure, which is improved from a conventional two-dimensional cantilever structure, and a method of manufacturing the same. The method includes providing a substrate including a read-out integrated circuit and a reflective layer for forming an absorption structure, forming a sacrificial layer on the substrate, forming a cantilever structure having an uneven cross-section in the sacrificial layer, forming a sensor part isolated from the substrate by the cantilever structure, and removing the sacrificial layer.

Abstract: Provided are a multilayer-structured bolometer and a method of fabricating the same. In the multilayer-structured bolometer, the number of support arms supporting the body of a sensor structure is reduced to one, and two electrodes are formed on the one support arm. Thus, the sensor structure is electrically connected with a substrate through the only one support arm. According to the multilayer-structured bolometer and method of fabricating the bolometer, the thermal conductivity of the sensor structure is considerably reduced to remarkably improve sensitivity to temperature, and also the pixel size of the bolometer is reduced to obtain high-resolution thermal images. In addition, the multilayer-structured bolometer can have a high fill-factor due to a sufficiently large infrared-absorbing layer, and thus can improve infrared absorbance.

Abstract: Provided are a phase-change memory device using a phase-change material having a low melting point and a high crystallization speed, and a method of fabricating the same. The phase-change memory device includes an antimony (Sb)-selenium (Se) chalcogenide SbxSe100-x phase-change material layer contacting a heat-generating electrode layer exposed through a pore and filling the pore. Due to the use of SbxSe100-x in the phase-change material layer, a higher-speed, lower-power consumption phase-change memory device than a GST memory device can be manufactured.

Abstract: Provided are resistive materials for a microbolometer, a method for preparation of resistive materials and a microbolometer containing the resistive materials. The resistive materials for the microbolometer include an alloy of silicon and antimony or an alloy of silicon, antimony and germanium, which has a high TCR and a low resistance.

Abstract: Provided are a nonvolatile memory device and a method of fabricating the same, in which a phase-change layer is formed using a solid-state reaction to reduce a programmable volume, thereby lessening power consumption. The device includes a first reactant layer, a second reactant layer formed on the first reactant layer, and a phase-change layer formed between the first and second reactant layers due to a solid-state reaction between a material forming the first reactant layer and a material forming the second reactant layer. The phase-change memory device consumes low power and operates at high speed.

Abstract: A bolometer having decreased noise and increased temperature sensitivity and a method of manufacturing the same are provided. The bolometer has a resistive layer formed of single crystalline silicon (Si) or silicon germanium (Si1-xGex, x=0.2˜0.5) having high crystallinity, such that 1/f noise can be reduced and temperature sensitivity can be significantly improved compared to a conventional amorphous silicon bolometer.

Abstract: Provided are a phase-change nonvolatile memory device and a manufacturing method thereof. The device includes: a substrate; and a stack structure disposed on the substrate and including a phase-change material layer. The phase-change material layer is formed of an alloy of antimony (Sb) and zinc (Zn), so that the phase-change memory device can stably operate at high speed and reduce power consumption.

Abstract: Provided are a phase-change memory device using a phase-change material having a low melting point and a high crystallization speed, and a method of fabricating the same. The phase-change memory device includes an antimony (Sb)-selenium (Se) chalcogenide SbxSe100-x phase-change material layer contacting a heat-generating electrode layer exposed through a pore and filling the pore. Due to the use of SbxSe100-x in the phase-change material layer, a higher-speed, lower-power consumption phase-change memory device than a GST memory device can be manufactured.

Abstract: Provided are an apparatus and method for writing data to a phase-change random access memory (PRAM) by using writing power calculation and data inversion functions, and more particularly, an apparatus and method for writing data which can minimize power consumption by calculating the power consumed while input original data or inverted data is written to a PRAM and storing the data consuming less power. A PRAM consumes a significant amount of power in order to store data in a memory cell since a large electric current is required to flow for a long period of time.

Abstract: Provided is a phase change memory device including: a phase change memory unit comprising a phase change layer pattern; a laser beam focusing unit locally focusing a laser beam on the phase change layer pattern of the phase change memory unit; and a semiconductor laser unit generating and emitting the laser beam towards the laser beam focusing unit. Thus set or reset operations in the phase change memory device uses laser beams locally applied, thereby reducing the consumption power and preventing destruction or change in information stored in neighboring cell during the operations of unit cell.

Abstract: Provided is a source driver circuit for an active matrix electroluminescent (EL) display including a digital-to-analog converter/ramp circuit for converting a digital signal into an analog signal, and generating a ramp signal in this process, simultaneously, whereby high degree of integration would be possible since a conventional complicated circuit is not required and gray scale with the high characteristic can be implanted, regardless of a change of a temperature or a threshold voltage.

Abstract: Disclosed is a low power and high density source driver and a current driven active matrix organic electroluminescent device having the same, in which all elements operate at a normal voltage and all circuits of the source driver are shielded from a high voltage of a panel.

Abstract: Provided are a phase-change memory device and a method of fabricating the same. The phase-change memory device includes a transistor disposed on a semiconductor substrate and including a gate electrode and first and second impurity regions disposed on both sides of the gate electrode; a bit line electrically connected to the first impurity region; and a phase-change resistor electrically connected to the second impurity region, wherein the phase-change resistor includes: a lower electrode formed of a doped SiGe layer; a phase-change layer contacting the lower electrode; and an upper electrode connected to the phase-change layer. The lower electrode is formed of the doped SiGe layer, which has a high resistivity and a low thermal conductivity, thereby reducing a reset current and the power consumption of the entire phase-change memory device.