A transfer film includes a temporary support, a first transparent resin layer, and a second transparent resin layer in this order, the second transparent resin layer includes metal oxide particles and an organic component, and, in a case in which an area of a profile of a thickness-direction distribution of a ratio of metal atoms constituting the metal oxide particles to carbon atoms constituting the organic component in the second transparent resin layer is represented by A, and a peak height of the profile is represented by P, Expression (1) is satisfied.

0.01 (nm).sup.1P/A0.08 (nm).sup.1 Expression (1)

An un-reacted substantially formaldehyde free curable binder solution for binding loose matter consists essentially of a solution obtainable by dissolving a reducing sugar, an ammonium salt acid precursor, optionally a carboxylic acid or a precursor thereof and optionally ammonia in water.

An un-reacted substantially formaldehyde free curable binder solution for binding loose matter consists essentially of a solution obtainable by dissolving a reducing sugar, an ammonium salt acid precursor, optionally a carboxylic acid or a precursor thereof and optionally ammonia in water.

A biodegradable composite including: (a) a polymeric matrix having a biodegradable polymer; (b) a filler; and (c) an anhydride grafted compatibilizer including one or more biodegradable polymers modified with an anhydride group. The composite may also include (d) polymer additives such as polymer chain extenders or plasticizers. An in situ method of manufacturing the biodegradable composite of the present invention, including the steps of: (a) melting one or more biodegradable polymers in the presence of a functional monomer and a free radical initiator to form a mixture; and (b) adding a filler and polymer additives to the mixture thereby manufacturing the biodegradable composite. A method of manufacturing a biodegradable polymer including (a) synthesizing a compatibilizer by (i) mixing a free radical initiator and a functional monomer, (ii) melting one or more biodegradable polymers to form a melt, and (iii) combining the product of step (i) and the melt of step (ii) thereby synthesizing the compatibilizer; and (b) mixing the compatibilizer of step (a), with a matrix of one or more biodegradable polymers and a filler and polymer additives, thereby manufacturing the biodegradable or compostable composite.

A biodegradable composite including: (a) a polymeric matrix having a biodegradable polymer; (b) a filler; and (c) an anhydride grafted compatibilizer including one or more biodegradable polymers modified with an anhydride group. The composite may also include (d) polymer additives such as polymer chain extenders or plasticizers. An in situ method of manufacturing the biodegradable composite of the present invention, including the steps of: (a) melting one or more biodegradable polymers in the presence of a functional monomer and a free radical initiator to form a mixture; and (b) adding a filler and polymer additives to the mixture thereby manufacturing the biodegradable composite. A method of manufacturing a biodegradable polymer including (a) synthesizing a compatibilizer by (i) mixing a free radical initiator and a functional monomer, (ii) melting one or more biodegradable polymers to form a melt, and (iii) combining the product of step (i) and the melt of step (ii) thereby synthesizing the compatibilizer; and (b) mixing the compatibilizer of step (a), with a matrix of one or more biodegradable polymers and a filler and polymer additives, thereby manufacturing the biodegradable or compostable composite.

Provided is an aqueous liquid composition including a water-based medium containing water, a polymer having at least one type of groups selected from hydroxyl groups and amino groups, and phosphonobutanetricarboxylic acid. The polymer is at least one polymer selected from the group consisting of a polysaccharide, polyamino acid, polyvinyl alcohol, polyallylamine, polyvinylamine, a polyamidine, a polyethylenimine, and their derivatives.

Provided is an aqueous liquid composition including a water-based medium containing water, a polymer having at least one type of groups selected from hydroxyl groups and amino groups, and phosphonobutanetricarboxylic acid. The polymer is at least one polymer selected from the group consisting of a polysaccharide, polyamino acid, polyvinyl alcohol, polyallylamine, polyvinylamine, a polyamidine, a polyethylenimine, and their derivatives.

A method for producing a structure composed of crosslinked polymer, including laminating a photo-dissoluble polymer layer on a substrate; laminating a layer containing a crosslinkable polymer on the photo-dissoluble polymer layer; irradiating the layer containing the crosslinkable polymer with light in a patternwise manner under crosslinking conditions to crosslink the crosslinkable polymer in a patternwise manner to obtain a crosslinked polymer sheet; washing and removing a uncrosslinked crosslinkable polymer to obtain a patterned crosslinked polymer sheet; and irradiating the photo-dissoluble polymer layer with light in a patternwise manner under dissolution conditions to dissolve the photo-dissoluble polymer layer in a patternwise manner, and peeling the crosslinked polymer sheet in a patternwise manner from the substrate.

A method for producing a structure composed of crosslinked polymer, including laminating a photo-dissoluble polymer layer on a substrate; laminating a layer containing a crosslinkable polymer on the photo-dissoluble polymer layer; irradiating the layer containing the crosslinkable polymer with light in a patternwise manner under crosslinking conditions to crosslink the crosslinkable polymer in a patternwise manner to obtain a crosslinked polymer sheet; washing and removing a uncrosslinked crosslinkable polymer to obtain a patterned crosslinked polymer sheet; and irradiating the photo-dissoluble polymer layer with light in a patternwise manner under dissolution conditions to dissolve the photo-dissoluble polymer layer in a patternwise manner, and peeling the crosslinked polymer sheet in a patternwise manner from the substrate.

The organic-inorganic composite of the present invention includes an organic compound having a carbonyl group, an inorganic compound containing a metal component, and a silver component. The ratio of the number of metal atoms in the inorganic compound to the number of carbon atoms in the organic compound is from 0.04 to 1.60, and the ratio of the number of silver atoms in the silver component to the number of carbon atoms in the organic compound is from 0.07 to 0.55. The organic-inorganic composite may include, for example, an inorganic compound having a metal matrix structure containing a metal M and oxygen, an organic compound having a carbonyl group, and silver ions. The carbonyl group is bonded to a side chain R.sup.1 of the organic compound and has an end group R.sup.2.