Abstract: Disclosed are a positive active material for a rechargeable lithium battery, a method of preparing same and rechargeable lithium battery including the same, wherein the positive active material includes lithium cobalt-based compound having pH of greater than about 7 and less than about 10.

Abstract: Disclosed is a rechargeable lithium battery that includes a positive electrode including a positive active material, a negative electrode including a negative active material, and a non-aqueous electrolyte, wherein the positive active material includes a compound represented by the following Chemical Formula 1, the negative active material includes a silicon-based compound, the compound represented by the above Chemical Formula 1 is included in an amount of about 3 wt % to about 30 wt % based on 100 wt % of the positive active material, and the silicon-based compound is included in an amount of about 3 wt % to about 10 wt % based on 100 wt % of the negative active material. Lix1CO1-yMyO2??Chemical Formula 1 In the above Chemical Formula 1, 1.05<x1<1.10, 0.03<y<0.05 and, M includes one selected from B, Mg, Ca, Sr, Ba, Ti, V, Cr, Fe, Cu, Al, and a combination thereof.

Abstract: A method for treating a substrate, in which a supercritical fluid is supplied into a chamber, in which the substrate is carried, to treat the substrate, the method including a supply step of supplying the supercritical fluid into the chamber until a pressure of the interior of the chamber reaches a preset pressure, and a substrate treating step of performing a supercritical process while repeating supply and exhaust of the supercritical fluid into and out of the interior of the chamber after the supply step, wherein a flow rate of the supercritical fluid supplied into the chamber in the supply step is variable.

Abstract: In an aspect, a positive active material for a rechargeable lithium battery including: a compound that reversibly intercalates and deintercalates lithium; and a coating layer coating the compound and including a metal nitrate is disclosed. Since the positive active material is structurally stable during the charge and discharge, the obtained battery may have excellent battery capacity and cycle-life characteristics and also have high power.

Abstract: Disclosed are an apparatus and a method for treating a substrate. The method includes supplying a mixture liquid obtained by mixing an additive with an organic solvent onto a substrate, and after the supplying of the mixture liquid, removing the mixture liquid from the substrate by supplying a supercritical fluid to the substrate and dissolving the mixture liquid in the supercritical fluid, wherein the additive has a surface tension that is lower than that of the organic solvent and a boiling point that is lower than that of the organic solvent.

Abstract: An electric compressor includes a cover. The cover is reinforced by forming straight ribs, ring ribs, connection ribs, or hexagonal ribs having a honeycomb structure. The straight ribs, rings ribs, connection ribs, or hexagonal ribs are formed on the inner side or the outer side of a body of the cover on a side of an inverter.

Abstract: A method for treating a substrate, in which a supercritical fluid is supplied into a chamber, in which the substrate is carried, to treat the substrate, the method including a supply step of supplying the supercritical fluid into the chamber until a pressure of the interior of the chamber reaches a preset pressure, and a substrate treating step of performing a supercritical process while repeating supply and exhaust of the supercritical fluid into and out of the interior of the chamber after the supply step, wherein a flow rate of the supercritical fluid supplied into the chamber in the supply step is variable.

Abstract: Disclosed herein is an apparatus for cooling an inverter of a vehicle which receives power supplied from a vehicle battery and controls the rotation speed of a motor. The apparatus includes an inverter housing configured to support the inverter, and a heat dissipation unit provided at a predetermined position in the inverter housing and configured to come into contact with an outer circumferential surface of the capacitor so that heat of the capacitor is transferred to the inverter housing.

Abstract: A positive active material for a rechargeable lithium battery and a rechargeable lithium battery including the same are disclosed. The positive active material includes a core including a lithium intercalation compound and a crystalline coating compound on a surface of the core and including a crystalline aluminum hydroxide, a crystalline aluminum oxyhydroxide, or a combination thereof.

Abstract: Disclosed are an apparatus and a method for liquid-treating a substrate. An apparatus for treating a substrate includes a liquid treatment chamber that supplies a liquid onto the substrate to liquid-treat the substrate, a drying chamber that removes the remained liquid on the substrate, and a transfer unit that transfers the substrate between the liquid treatment chamber and the drying chamber, wherein the transfer unit includes a hand that supports the substrate, and a weight measuring unit that measures a weight of the remained liquid on the substrate. A weight of a remained liquid on a substrate may be measured by measuring a weight of the substrate while the substrate is transferred.

Abstract: Disclosed are an apparatus and a method for liquid-treating a substrate. An apparatus for treating a substrate includes a liquid treating unit that liquid-treats a substrate by supplying a liquid onto a substrate, a weight measuring unit that measures a weight of the remained liquid on the substrate, and a transfer unit that transfers the substrate between the liquid treating unit and the weight measuring unit. Accordingly, the weight of the remained liquid may be measured more promptly.

Abstract: Provided is a method for treating a substrate which removes particle within a concave portion on a substrate having a thin film on which a pattern having the concave portion on its upper surface is formed. The substrate treating method according the present invention comprises a penetration step for penetrating a treatment liquid containing supercritical organic chemical solution into the concave portion; and a heating step for heating the substrate after the penetration step.

Abstract: Disclosed is a method for liquid-treating a substrate. In a method for treating a substrate, the substrate may be treated by supplying a treatment liquid onto the rotating substrate by using a first nozzle and a second nozzle, the first nozzle supplies the treatment liquid to an area including a central area on the substrate, and the second nozzle supplies the treatment liquid to a peripheral area of the substrate.

Abstract: Provided is an apparatus and method for supplying a fluid. The substrate treating apparatus comprises a treating unit for treating a substrate and a fluid supply unit for supplying fluid to the treating unit, wherein the fluid supply unit comprises a supply tank in which the fluid is stored, a supply line connecting the supply tank and the treating unit to supply the fluid from the supply tank to the treating unit, a filter installed on the supply line, and an exhaust line branching from the supply line, wherein a branch point of the exhaust line in the supply line is located upstream of the filter.

Abstract: Disclosed herein is an electric compressor. The electric compressor includes an inverter cover which is mounted to an outer surface of a compressor housing in which compression of refrigerant is implemented, and a printed circuit board which is disposed inside the inverter cover and mounted with a plurality of heat generating elements that come into surface contact with one surface of the compressor housing and perform heat transfer with low-temperature refrigerant supplied into the compressor housing.

Abstract: Disclosed herein is an electric compressor including: a main housing (4) having therein a suction chamber into which low-temperature refrigerant is drawn; an inverter housing (1) including an internal seating surface (1a) formed adjacent to the suction chamber, with at least one inverter element (2) fixed at a surface thereof to the internal seating surface (1a) while making contact with the internal seating surface (1a), the at least one inverter element (2) conducting heat to the main housing (4); and at least one heat dissipation cover (6) disposed toward the main housing (4) while facing another surface of the inverter element (2) and enclosing the inverter element (2), the at least one heat dissipation cover (6) having therein a receiving space (64) in which the inverter element (2) is received.

Abstract: A rechargeable lithium battery including a negative electrode including a silicon-based negative active material; a positive electrode including a positive active material including a sacrificial positive active material selected from lithium nickel oxides, lithium molybdenum oxides, and combinations thereof; and a non-aqueous electrolyte, is disclosed.

Abstract: A rechargeable lithium battery includes a non-aqueous electrolyte, a negative electrode including a silicon-based negative active material, and a positive active material including a compound represented by a Chemical Formula 1, Li1+xCo1?yMyO2, wherein, ?0.2?x?0.2, 0<y?0.2, and M includes Ni and one selected from Mn, B, Mg, Ca, Sr, Ba, Ti, V, Cr, Fe, Cu, Al, and a combination thereof.

Abstract: Disclosed are systems and methods for treating a substrate. The method may include supplying supercritical carbon dioxide into a chamber to treat a substrate. Here, temperature and pressure of the chamber is maintained to allow carbon dioxide to be directly changed from a gas state to a supercritical state when the carbon dioxide is supplied into the chamber.

Abstract: A timing controller, a source driver, and a display driver integrated circuit (DDI) having improved test efficiency and a method of operating the DDI are provided. The timing controller includes a code generation unit for generating a first code from display data, a protocol encoder for generating a data sequence including the display data and the first code, and a transmission unit for providing the data sequence to a source driver through a link.