Provided is an interlayer film for laminated glass which has high heat shielding properties, a high visible transmittance, and excellent light resistance which enables retention of the high visible transmittance for a long period of time. The interlayer film for laminated glass according to the present invention has an interlayer film for laminated glass with a single layer structure or a laminated structure of two or more layers, the interlayer film for laminated glass according to the present invention comprises a first layer, and the first layer contains a polyvinyl acetal resin; a plasticizer; a tungsten oxide particle; a magnesium salt of an organic acid having a branched structure; and a metal salt of a C2 to C8 organic acid, other than the magnesium salt of an organic acid having a branched structure.

A high dielectric composition for particle formation that includes a high dielectric solvent, and a high dielectric polymer dissolved into the high dielectric solvent. A method of forming particles including dissolving a high dielectric polymer in a high dielectric solvent to form a high dielectric composition, and dielectrophoretically spinning the high dielectric composition in an electrostatic field to form particles.

A high dielectric composition for particle formation that includes a high dielectric solvent, and a high dielectric polymer dissolved into the high dielectric solvent. A method of forming particles including dissolving a high dielectric polymer in a high dielectric solvent to form a high dielectric composition, and dielectrophoretically spinning the high dielectric composition in an electrostatic field to form particles.

The present disclosure provides a crosslinking agent, the preparation process and uses thereof, a hydrogel and a biodegradable cryogel including the crosslinking agent.

A polymer composition has at least one thermoplastic polymer material and a dielectric liquid of improved polarity, to a process for preparing said polymer composition, to a cable comprising at least one electrically insulating layer obtained from the polymer composition, and to a process for preparing the cable.

A polymer composition has at least one thermoplastic polymer material and a dielectric liquid of improved polarity, to a process for preparing said polymer composition, to a cable comprising at least one electrically insulating layer obtained from the polymer composition, and to a process for preparing the cable.

A polymer composition has at least one thermoplastic polymer material and a dielectric liquid of improved polarity, to a process for preparing said polymer composition, to a cable comprising at least one electrically insulating layer obtained from the polymer composition, and to a process for preparing the cable.

A biodegradable polymer includes starch groups, a polyvinyl alcohol (PVA) backbone having a crosslinked layered configuration and a Schiff base structure bonded to the starch groups. The PVA backbone has double bonds, and the starch groups have reversible acetal linkages. The biodegradable polymer is produced by mixing starch and water; mixing partially hydrolyzed polyvinyl alcohol (PVA) and water; mixing the starch solution with the PVA solution; mixing in a catalyst; and mixing in a cross-linking agent and a dialdehyde.

A biodegradable polymer includes starch groups, a polyvinyl alcohol (PVA) backbone having a crosslinked layered configuration and a Schiff base structure bonded to the starch groups. The PVA backbone has double bonds, and the starch groups have reversible acetal linkages. The biodegradable polymer is produced by mixing starch and water; mixing partially hydrolyzed polyvinyl alcohol (PVA) and water; mixing the starch solution with the PVA solution; mixing in a catalyst; and mixing in a cross-linking agent and a dialdehyde.

Methods of making crosslinked polymeric materials and crosslinked interlocked hybrid polymeric materials using photoinitiator, antioxidant, additive, and photoirradiation of polymeric blend and/or interlocked hybrid materials are provided. Methods of spatially controlling macroscopic properties and morphology of polymeric materials, and products made by the methods also are provided.