A gas detector wherein a porous coordination polymer represented by formula (1) is supported on a supporter, the supporting amount of the porous coordination polymer per area is 0.02 mg/cm.sup.2 or more and 0.3 mg/cm.sup.2 or less,

Fe.sub.x(pz)[Ni.sub.1-yM.sub.y(CN).sub.4]  (1)

(wherein, pz=pyrazine, 0.95≦5≦1.05 , M=Pd or pt, 0≦y≦0.15).

Provided is a gas permeable member including a gas permeable sheet configured to allow a gas to permeate therethrough; and a holder configured to hold the gas permeable sheet, wherein the gas permeable member is mounted in a container body having a surface on which a through hole communicating with an internal space is open by being inserted through the opening, so as to allow the gas to permeate therethrough between the internal space and the outer space of the container body via the gas permeable sheet, and the gas permeable member further includes a pressing part that contacts with an inner wall of the through hole and that presses the inner wall toward the open side at the contact position when a force is applied in a pull-out direction from the open side.

A method of reducing outgassing in a supercapacitor comprised of carbon-containing electrodes and at least one ionic liquid is characterised by the steps of (a) contacting the carbon-containing electrodes with a tetrafluoroborate salt; (b) applying a potential difference across the carbon-containing electrodes whilst in contact with the salt in a cycle during which electrical charge is stored on and discharged from the electrodes; and (c) continuing further cycles of step (b) until such time as substantially no further outgassing from the system occurs.

A secondary battery electrode has excellent characteristics. As a binder for a secondary battery electrode, a crosslinked polymer or salt thereof having a carboxyl group is used. The crosslinked polymer or salt includes 30 mass % or more and not more than 100 mass % of a structural unit derived from an ethylenically unsaturated carboxylic acid monomer and a metal ion content of the crosslinked polymer or salt thereof is not more than 100 ppm or less.

Provided is a lithium battery, wherein the battery comprises an anode, a cathode, wherein the cathode comprises one or more transition metals, an electrolyte, and a porous separator interposed between the cathode and anode, wherein the separator comprises an anionic compound. Also provided are methods of manufacturing such batteries.

Provided is a lithium battery, wherein the battery comprises an anode, a cathode, wherein the cathode comprises one or more transition metals, an electrolyte, and a porous separator interposed between the cathode and anode, wherein the separator comprises an anionic compound. Also provided are methods of manufacturing such batteries.

A system and method for reforming an electrolytic capacitor. A method includes disabling a primary switch, the primary switch selectively couples a power supply to the electrolytic capacitor, and providing a signal to one or more reforming switches to control the one or more reforming switches. The method includes completing the reforming process based at least in part on a detection of a voltage of the electrolytic capacitor or a duration of time, and disabling the one or more switches responsive to completing the reforming process.

A system and method for reforming an electrolytic capacitor. A method includes disabling a primary switch, the primary switch selectively couples a power supply to the electrolytic capacitor, and providing a signal to one or more reforming switches to control the one or more reforming switches. The method includes completing the reforming process based at least in part on a detection of a voltage of the electrolytic capacitor or a duration of time, and disabling the one or more switches responsive to completing the reforming process.

A valve device for a power storage device that can, when a gas is generated inside the power storage device, release the gas to the outside, and can highly prevent the intrusion of moisture from an external environment, the power storage device including: a power storage device element and a housing in which the element is housed, the valve device being attached to the housing, wherein the valve device is configured to reduce an internal pressure of the housing when the pressure increases due to a gas generated inside, and in the valve device, an amount of helium leakage from a secondary side to a primary side is 5.0×10.sup.−11 Pa.Math.m.sup.3/sec or more and 5.0×10.sup.−6 Pa.Math.m.sup.3/sec or less, as measured in a 25° C. environment, in accordance with a method defined in “Vacuum spraying method (spray method)” of “Method for helium leak testing” in JIS Z 2331: 2006.

An object of the present invention is to provide a carbonaceous material from which an electrochemical device having a high initial electrostatic capacitance, an excellent effect of suppressing gas generation during charging and discharging, and excellent durability can be obtained, and a method for producing the carbonaceous material, an electrode active material for an electrochemical device containing the carbonaceous material, an electrode for an electrochemical device containing the electrode active material, and an electrochemical device. The present invention relates to a carbonaceous material having a BET specific surface area of 1550 to 2500 m.sup.2/g, a value of an oxygen content/hydrogen content per specific surface area of 1.00 to 2.10 mg/m.sup.2, and an electrical conductivity of 10 to 15 S/cm determined by powder resistance measurement at a load of 12 kN.