Stacked unit cells 100 of a fuel cell each comprise a membrane electrode assembly 10, a pair of gas separators 40 and 50, and a first sealing portion 26 provided between the pair of gas separators. The fuel cell further comprises a second sealing portion provided between adjacent ones of the unit cells, a first manifold in which reaction gas flows, and a second manifold in which a coolant flows. One of the first sealing portion and the second sealing portion is an adhesive sealing portion, and another one of the first sealing portion and the second sealing portion is formed of a gasket. The adhesive sealing portion and the gasket are provided along the outer circumference of the manifold, in the fuel cell as viewed in a stacking direction. The gasket and the adhesive sealing portion are arranged in this order from a side closer to the manifold.

Disclosed is a method of manufacturing a membrane electrode assembly with minimized interfacial resistance between an electrode and an electrolyte membrane. For instance, a catalyst admixture including a catalyst composite including a catalyst and a first binder, and a second binder may be applied to a porous substrate and the porous substrate may be impregnated with the second binder, thereby minimizing interfacial resistance between the electrode and the electrolyte membrane and reducing a thickness of the electrolyte membrane.

Disclosed is a method of manufacturing a membrane electrode assembly with minimized interfacial resistance between an electrode and an electrolyte membrane. For instance, a catalyst admixture including a catalyst composite including a catalyst and a first binder, and a second binder may be applied to a porous substrate and the porous substrate may be impregnated with the second binder, thereby minimizing interfacial resistance between the electrode and the electrolyte membrane and reducing a thickness of the electrolyte membrane.

The invention relates to a bipolar plate (30) for a fuel cell (10). The bipolar plate (30) has a first bipolar plate half (32) and a second bipolar plate half (34), and the bipolar plate (30) has at least one fluid channel (36) for carrying at least one fluid (F). The first bipolar plate half (32) has at least one bonded connection (40) to the second bipolar plate half (34), and the bipolar plate (30) comprises at least one sealing arrangement (50) which sealingly covers the at least one bonded connection (40). The invention also relates to a fuel cell and a method for sealingly covering a bonded connection of the first bipolar plate half (32) to the second bipolar plate half (34) of the bipolar plate (30).

The invention relates to a bipolar plate (30) for a fuel cell (10). The bipolar plate (30) has a first bipolar plate half (32) and a second bipolar plate half (34), and the bipolar plate (30) has at least one fluid channel (36) for carrying at least one fluid (F). The first bipolar plate half (32) has at least one bonded connection (40) to the second bipolar plate half (34), and the bipolar plate (30) comprises at least one sealing arrangement (50) which sealingly covers the at least one bonded connection (40). The invention also relates to a fuel cell and a method for sealingly covering a bonded connection of the first bipolar plate half (32) to the second bipolar plate half (34) of the bipolar plate (30).

An object of the present invention is to provide a photocurable resin composition that can cope with application by screen printing and can be photocured in a short time. The present invention relates to a photocurable resin composition containing the following components (A) to (D): component (A): a polymer having one or more (meth)acryloyl groups and a polyisobutylene skeleton containing —[CH.sub.2C(CH.sub.3).sub.2]— unit, component (B): a monofunctional monomer containing the following component (b1) and component (b2), component (b1): a monofunctional monomer having a (meth)acryloyl group and a hydroxy group, component (b2): a monofunctional monomer having a (meth)acryloyl group and no hydroxy group, component (C): a radical polymerization initiator, and component (D): organic resin particles.

An object of the present invention is to provide a photocurable resin composition that can cope with application by screen printing and can be photocured in a short time. The present invention relates to a photocurable resin composition containing the following components (A) to (D): component (A): a polymer having one or more (meth)acryloyl groups and a polyisobutylene skeleton containing —[CH.sub.2C(CH.sub.3).sub.2]— unit, component (B): a monofunctional monomer containing the following component (b1) and component (b2), component (b1): a monofunctional monomer having a (meth)acryloyl group and a hydroxy group, component (b2): a monofunctional monomer having a (meth)acryloyl group and no hydroxy group, component (C): a radical polymerization initiator, and component (D): organic resin particles.

To provide an electrochemical device capable of sufficiently ensuring sealing performance, and the like. The electrochemical device of this embodiment has an electrochemical cell with an electrolyte membrane interposed between a hydrogen electrode and an oxygen electrode; a plurality of separators formed of a metal material; and gas-sealing materials that seal at least one of between the electrochemical cell and the separator and between the plurality of separators. In the electrochemical device, diffusion-preventing coatings, which prevent diffusion of metal elements in the metal material composing the separators, cover surfaces of the separators. The diffusion-preventing coating is formed of a material that reacts with a material composing the gas-sealing material. There are portions where the separators are in direct contact with the gas-sealing materials.

To provide an electrochemical device capable of sufficiently ensuring sealing performance, and the like. The electrochemical device of this embodiment has an electrochemical cell with an electrolyte membrane interposed between a hydrogen electrode and an oxygen electrode; a plurality of separators formed of a metal material; and gas-sealing materials that seal at least one of between the electrochemical cell and the separator and between the plurality of separators. In the electrochemical device, diffusion-preventing coatings, which prevent diffusion of metal elements in the metal material composing the separators, cover surfaces of the separators. The diffusion-preventing coating is formed of a material that reacts with a material composing the gas-sealing material. There are portions where the separators are in direct contact with the gas-sealing materials.

The present disclosure is directed to a single sheet electrochemical cell bipolar plate for stack assembly comprising a single sheet of formable material having an anode side and a cathode side opposite the anode side, wherein the anode side and the cathode side have a different structural configuration, a plurality of water channels on the anode side, a plurality of hydrogen channels on the cathode side, a plurality of lands comprise a groove and a flange, and a seal positioned within the flange to provide a variable groove depth for the land.