Abstract: An electrolyte membrane made of a phosphate-containing siloxane-based polymer for fuel cell, where the polymer comprises a siloxane backbone and a poly(meth)acrylate chain to which phosphate groups are attached, and the polymer is formed by vinyl polymerization of a silane compound having a (meth)acrylate functional group or a hydrolysis-polycondensation product thereof and a (meth)acrylate compound having a phosphate group, followed by siloxane crosslinking. The electrolyte membrane of a siloxane-based polymer has a high conductivity for a fuel cell.

Abstract: An electrolyte membrane made of a phosphate-containing siloxane-based polymer for fuel cell, where the polymer comprises a siloxane backbone and a poly(meth)acrylate chain to which phosphate groups are attached, and the polymer is formed by vinyl polymerization of a silane compound having a (meth)acrylate functional group or a hydrolysis-polycondensation product thereof and a (meth)acrylate compound having a phosphate group, followed by siloxane crosslinking. The electrolyte membrane of a siloxane-based polymer has a high conductivity for a fuel cell.

Abstract: The invention relates to solid polyelectrolyte membranes and processes for their production. As solid polyelectrolyte materials, there have been known fluoropolymers which have perfluoroskeletons and side chains bearing sulfonic acid groups and heat-resistant resins which have hydrocarbon skeletons and contain alkylsulfonic acid or alkylphosphoric acid groups introduced thereto. The fluoropolymers are excellent in heat resistance and chemical resistance but have the problem of being expensive, while the heat-resistant resins have the problem of being poor in chemical resistance. Further, solid polyelectrolyte materials having higher electric conductivities have been desired.

Abstract: The invention relates to solid polyelectrolyte membranes and processes for their production. As solid polyelectrolyte materials, there have been known fluoropolymers which have perfluoroskeletons and side chains bearing sulfonic acid groups and heat-resistant resins which have hydrocarbon skeletons and contain alkylsulfonic acid or alkylphosphoric acid groups introduced thereto. The fluoropolymers are excellent in heat resistance and chemical resistance but have the problem of being expensive, while the heat-resistant resins have the problem of being poor in chemical resistance. Further, solid polyelectrolyte materials having higher electric conductivities have been desired.

Abstract: A polymer electrolyte membrane is provided which comprises a copolymer prepared by polymerization of a phosphorus-atom-containing unsaturated monomer comprising at least one phosphorus atom and at least one ethylenically unsaturated bond in a molecule, typically represented by the general formula (1): and a monomer or prepolymer of a number-average molecular weight of 2,000 or more having an ethylenically unsaturated bond. Thereby, there are provided a polymer electrolyte membrane having both the high proton conductivity of the polymer electrolyte membrane containing phosphoric acid ester and a high mechanical strength, and a polymer electrolyte fuel cell using the polymer electrolyte membrane.

Abstract: A viscosity-change-detecting apparatus 5 comprising (a) an elastically deflectable and/or twistable member 16, and (b) a movable permanent magnet member 13 mounted directly or via a connecting member to the elastic member 16 such that the movable permanent magnet member 13 moves depending on the deformation of the elastic member 16, part of the elastic member 16 being fixed to a support 135 for the viscosity-change-detecting apparatus 5, so that the elastic member 16 is subjected to elastic deflection and/or torsion with rotation and/or vibration in the rotating liquid, whereby the relative position of the movable permanent magnet member 13 to a fixed external detector 6 changes depending on the viscosity change of the liquid, and whereby the change of the relative position is detected by the external detector 6 to detect the viscosity change of the liquid.

Abstract: The invention relates to solid polyelectrolyte membranes and processes for their production. As solid polyelectrolyte materials, there have been known fluoropolymers which have perfluoroskeletons and side chains bearing sulfonic acid groups and heat-resistant resins which have hydrocarbon skeletons and contain alkylsulfonic acid or alkylphosphoric acid groups introduced thereto. The fluoropolymers are excellent in heat resistance and chemical resistance but have the problem of being expensive, while the heat-resistant resins have the problem of being poor in chemical resistance. Further, solid polyelectrolyte materials having higher electric conductivities have been desired.

Abstract: A salty water absorbing composition, salty water ice packs, and salty water absorbing packs used to preserve freshness of meat, fresh fish and shells, vegetables and other watery food when they are transported over a long distance. The salty water absorbing composition and packs containing the composition absorb drippings or exudation discharged from such food, in particular the salty drippings, which ooze from the fresh fish and shells and other marine products. The salty water absorbing pack containing antibiotic materials is accommodated in a bag made of paper sheet coated with a perforated polymer to construct a salty water absorbing pack. The salty water ice pack is obtained by absorbing the pack with salty water and freezing.

Abstract: A process of producing glycidyl ethers of monohydric or polyhydric phenols is disclosed, which comprises mixing a monohydric or polyhydric phenol, dioxane or diethoxyethane, and epichlorohydrin; adding to the mixture an aqueous solution of an alkali metal hydroxide and subjecting to azeotropic distillation water, dioxane or diethoxyethane, and epichlorohydrin, followed by liquefaction of the distillate to be divided into an aqueous layer and an organic layer, and circulating the organic layer to the mixture whereas eliminating the aqueous layer. According to this process, the content of hydrolyzable chlorine which cannot be removed in a subsequent purification step is minimized and the phenol glycidyl ethers thus obtained are well suited for the use of sealing materials for integrated circuits.

Abstract: An optical resin material comprising at least two constituent units each having positive and negative main polarizability differences of at least 50.times.10.sup.-25 cm.sup.3 in terms of absolute values has small birefringence and good water absorbance, heat resistance and moldability.

Abstract: A new glycidyl ether of novolak type substituted phenolic resin composed of specific repeating units and new terminal groups contained therein. This resin is superior as an encapsulating compound in the electric and electronic industries.