A gas barrier film-forming composition comprising the following components: plate-like particles composed of exfoliated layer substances generated through interlayer exfoliation of layered compound, plate-like particles having average thickness of 0.7 nm to 100 nm, average major-axis length of 100 nm to 100,000 nm, and ratio of (maximum major-axis length/width orthogonal to maximum major-axis length) of 1.0 to 10.0, and containing quaternary ammonium ions each having total carbon atom number of 13 to 45 and one or two C.sub.10-20 alkyl groups, and anionic surfactant having ammonium ion, wherein the amount of each of quaternary ammonium ions and anionic surfactant is more than 0% by mass and 3.0% by mass or less relative to mass of plate-like particles, a water-soluble polymer; and an aqueous medium. The gas barrier film-forming composition, wherein layered compound is ilerite. A formed product comprising a base and a gas barrier film disposed on surface of the base.

A water-soluble film includes a polyvinyl alcohol resin (A) as a main component, wherein the ratio (X.sub.TD/X.sub.MD) of a degree of elongation (X.sub.TD) in the transverse direction (TD) of the water-soluble film to a degree of elongation (X.sub.MD) in the machine direction (MD) thereof when the water-soluble film is floated on the surface of water at 20° C. for 60 seconds is from 1.05 to 1.5. The water-soluble film exhibits reduced curling, exhibits reduced positional shift, and shows satisfactory sealability while forming a package.

Provided herein are starch compositions, which comprise a first starch having a first weight average molecular weight between about 300,000 and about 4,000,000 Daltons, a second starch having a second weight average molecular weight between about 1,000 and about 290,000 Daltons, and a water-soluble polymer. Also provide herein are articles of manufacture and films comprising the starch composition, and methods of making the starch composition.

A method for preparing a chemiluminescent hydrogel is disclosed, belonging to the field of luminescent materials. The method for preparing a chemiluminescent hydrogel includes the steps of: slowly adding chitosan to an acetic acid solution, stirring at room temperature until completely dissolved, adding a cobalt chloride solution, followed by a polyvinyl alcohol (PVA) solution, sufficiently stirring, ultrasonically defoaming, and subjecting a resulting mixture to an alkaline bath treatment with an alkaline solution, adding N-(4-aminobutyl)-N-ethylisoluminol (ABEI), and stirring with a hydrogen peroxide solution to obtain the chemiluminescent hydrogel. The synthesized hydrogel has the advantages of high luminous intensity and long duration. In the process, a high-water-cut polymer with a three-dimensional network structure obtained by chemical crosslinking with the addition of PVA features excellent biocompatibility, high elasticity, and nontoxicity, and is one of biomedical materials with application potential.

Disclosed in the present invention is a packaging composite material comprising polarizing films, the packaging composite material comprising: a polarizing layer, comprising two or more layers of polarizing film, wherein polarization directions of at least two layers of polarizing film have an included angle which is not 0°. The packaging composite material of the present invention has a simple structure, strong light-blocking properties, a high light-blocking rate, and a broad-spectrum light-blocking effect. Also disclosed in the present invention are the use of the packaging composite material in packaging, and the use of the packaging composite material in a label. When used as packaging or a label, the packaging composite material can extend the shelf life of products which need to be stored in the dark.

Provided is an ultra large-width coating device applied to a consecutive process. More particularly, the present invention relates to a coating device capable of maximizing productivity by consecutively manufacturing a large-width film without reducing physical properties of the manufactured film by overcoming a problem in that a coating width is limited during a coating process using the existing contact type coating roller, and a method for manufacturing an ultra large-width membrane using the same.

[Problem] Provided is a resin composition capable of producing a film having an excellent gas-barrier property and a small variation in thickness.

[Solution] The resin composition comprises (A) an EVOH-based resin in an amount of at least 40% by weight but 99% by weight or less, (B) a PVA-based resin (B), and (C) an acid-modified polyolefin. The resin composition contains at most 1% of volatile content. The component (B) is preferably a PVA-based resin having a primary hydroxyl group in the side chain.

A polymer film can be adjusted to movement or a fine uneven surface of a living body and has excellent ability to adhere to a biological tissue. The polymer film includes a block copolymer having a structure in which branched polyalkylene glycol and polyhydroxyalkanoic acid are bound to each other, wherein the polymer film has a film thickness of 10 to 1000 nm. The branched polyalkylene glycol has at least three terminal hydroxyl groups per molecule, the mass percentage of the branched polyalkylene glycol relative to the total mass of the block copolymer is 1% to 30%, and a value obtained by dividing the average molecular weight of polyhydroxyalkanoic acid in the block copolymer by X that is the number of terminal hydroxyl groups present per a single molecule of the branched polyalkylene glycol is 10000 to 30000.

Textile compositions comprising at least one filamentous fungus are disclosed, as are methods for making and using such textile compositions. Embodiments of the textile compositions generally include at least one of a plasticizer, a polymer, and a crosslinker, in addition to the filamentous fungus. The disclosed textile compositions are particularly useful as analogs or substitutes for conventional textile compositions, including but not limited to leather.

Thermoformed articles comprising a film thermoformed to be in the form of a pouch defining an interior pouch volume, the film comprising a mixture of a polyvinyl alcohol resin and a plasticizer, wherein the plasticizer is provided in an amount in a range of about 5 to about 30 weight parts, based on 100 weight parts of total polyvinyl alcohol resin; wherein the thermoformed film in the form of a pouch defining an interior pouch volume is characterized by a draw ratio in a range of about 2.3 to about 2.9; the article is characterized by a release time of at least 30 seconds when formed into a sealed packet and tested in accordance with the Liquid Release Test; and the article is characterized by a residue value of at most 9%, as determined by the Residue Test.