Abstract: A transition metal/carbon nanotube composite includes a carbon nanotube and a transition metal oxide coating layer disposed on the carbon nanotube. The transition metal oxide coating layer includes a nickel-cobalt oxide.

Abstract: Disclosed is a sterilizing catalyst, a sterilizing device and a sterilizing system, the sterilizing catalyst includes a metal lattice including a metal oxide, and an oxygen vacancy-inducing metal that is integrated or encompassed within the metal lattice. The metal oxide is an oxide of a divalent or multivalent metal. The oxygen vacancy-inducing metal has an oxidation number lower than that of the divalent or multivalent metal.

Abstract: An electrode for electrochemical water treatment, the electrode including a nanodiamond and a conducting agent.

Abstract: A method of preparing an oxidized electrode for a capacitive deionization device, the method including electrochemically oxidizing an electrode including a hydrophobic active material to produce the oxidized electrode.

Abstract: A deionization device including at least one flow path configured for an influent fluid; at least one pair of electrodes; at least one charge barrier disposed between the at least one flow path and a corresponding electrode of the at least one pair of electrodes; and at least one electrolyte solution disposed between at least one electrode of the at least one pair of electrodes and a corresponding charge barrier of the at least one charge barrier, wherein at least one electrode of the at least one pair of electrodes includes an electrochemical redox active material, and the at least one electrolyte solution and the influent fluid are different.

Abstract: A capacitive deionization device includes; at least one flow path configured to receive influent fluid, at least one pair of electrodes, at least one charge barrier disposed between the at least one flow path and a corresponding electrode of the at least one pair of electrodes, at least one electrolyte solution disposed between at least one of the at least one pair of electrodes and a corresponding charge barrier of the at least one charge barrier, and at least one electrolyte compensation device in fluid communication with the at least one electrolyte solution, wherein the at least one electrolyte solution differs from the influent fluid.

Abstract: Provided is an electrolytic disinfection system and method for purifying water. The electrolytic disinfection system includes; an electrolytic disinfection device which includes; a chamber, a first electrode disposed in the chamber, a second electrode disposed in the chamber and spaced apart from the first electrode, a water inlet part connected to the chamber, wherein the water inlet part allows influent water to be introduced to the chamber therethrough, and a water outlet part connected to the chamber, wherein the water outlet part allows the influent water to be discharged from the chamber therethrough, and an influent water heating device which is disposed upstream of the water inlet part and heats the influent water introduced to the chamber through the water inlet part.

Abstract: A capacitive deionization device includes; at least one flow path configured for influent water flow, at least one pair of electrodes, at least one charge barrier disposed between the at least one flow path and a corresponding electrode of the at least one pair of electrodes, and at least one electrolyte solution disposed between the at least one electrode of the at least one pair of electrodes and a corresponding charge barrier of the at least one charge barrier, wherein the at least one electrolyte solution is different in at least one of ionic concentration and ionic species from the influent water.

Abstract: A drinking water filter system includes; a filter unit including; a first electrode and a second electrode disposed separate from and substantially opposite to the first electrode, wherein at least one of the first electrode and the second electrode is a filter layer, and a voltage applying device which alternately applies a forward voltage and a reverse voltage between the first electrode and the second electrode to sterilize and regenerate the at least one filter layer.

Abstract: A supercapacitor which includes a cathode, an anode, a separator interposed between the cathode and the anode, and an electrolyte interposed between the cathode and the anode to allow current to flow. The cathode includes a catalyst having characteristics of a pseudo capacitor and a binder, and an electrochemical apparatus for water purification including the same.

Abstract: A transition metal/carbon nanotube composite includes a carbon nanotube and a transition metal oxide coating layer disposed on the carbon nanotube.

Abstract: An integrated electrode-current collector sheet includes a current collector including uneven portions disposed on at least one side of the current collector; and an active material layer disposed on the current collector, the active material layer at least partially covering the uneven portions. In addition, disclosed are a capacitive deionization device and an electric double layer capacitor including the integrated electrode-current collector sheet.

Abstract: An electrode for capacitive deionization, the electrode including an active material having an oxygen/carbon (“O/C”) atomic ratio between about 0.1 and about 1 and a specific surface area between about 500 square meters per gram (“m2/g”) and about 3,000 m2/g.

Abstract: A soft water forming device includes; a capacitive deionization stack (“CDI”) stack including at least one anode and at least one cathode that are separately and alternately stacked to adsorb ions contained in water, and a pumping unit which pumps one of water supplied to the CDI stack and water which has passed through the CDI stack, the pumping unit including; a casing have a water inlet and a water outlet and a rotor which rotates due to motive power supplied by an external motor and pumps the water supplied into the casing.

Abstract: An electrode, a method of producing the same, and a fuel cell including the electrode are disclosed. The electrode includes: a support; and a catalyst layer formed on the support, the catalyst layer includes: a support catalyst; and a proton conductor having an amorphous phase greater than about 60% by weight. The proton conductor includes: at least one material from the group of B2O3, ZrO2, SiO2, WO3, and MoO3; and P2O5, the proton conductor being 0.5-60 parts by weight where the support catalyst is 100 parts by weight. The proton conductor can be synthesized at a low enough temperature so that it can be applied to the support with catalyst particles to form a catalyst layer. The coated proton conductor is in a solid state so the fuel cell is stable over time and it does not obstruct a fuel gas so that the catalyst can be more efficiently used.

Abstract: A supercapacitor which includes a cathode, an anode, a separator interposed between the cathode and the anode, and an electrolyte interposed between the cathode and the anode to allow current to flow. The cathode includes a catalyst having characteristics of a pseudo capacitor and a binder, and an electrochemical apparatus for water purification including the same.

Abstract: Disclosed herein is an electrode for capacitive deionization device including an active material, a waterborne polyurethane, and a conducting agent. Disclosed herein too is a method of manufacturing the electrode and a capacitive deionization device employing the electrode.

Abstract: An electrode for a fuel cell, a method of preparing the same, and a fuel cell employing the same. More particularly, provided are an electrode for a fuel cell, including a catalyst layer including a supporting material, a catalyst, and a binder, wherein the specific surface area of the supporting material is at least 500 m2/g, and wherein the binder includes an amount of fluorinated ethylene propylene copolymer in the range of 0.5 to 50 parts by weight based on 100 parts by weight of the total amount of the supporting material and the catalyst, a method of preparing the same, and a fuel cell employing the same. The electrode has superior water repellency even when a relatively small amount of binder is used compared to a conventional electrode, and as a result, efficiency of a supported catalyst is maximized.

Abstract: An electrode, a method of producing the same, and a fuel cell including the electrode are disclosed. The electrode includes: a support; and a catalyst layer formed on the support, the catalyst layer includes: a support catalyst; and a proton conductor having an amorphous phase greater than about 60% by weight. The proton conductor includes: at least one material from the group of B2O3, ZrO2, SiO2, WO3, and MoO3; and P2O5, the proton conductor being 0.5-60 parts by weight where the support catalyst is 100 parts by weight. The proton conductor can be synthesized at a low enough temperature so that it can be applied to the support with catalyst particles to form a catalyst layer. The coated proton conductor is in a solid state so the fuel cell is stable over time and it does not obstruct a fuel gas so that the catalyst can be more efficiently used.

Abstract: A proton conductor includes P2O5 and at least one of B2O3, ZrO2, SiO2, WO3, and MoO3. The proton conductor has an amorphous phase of 60 wt % or more. The proton conductor exhibits proton conductivity at temperatures above 100° C. without humidification.