The present disclosure provides a conductive polymer material. The conductive polymer material includes a conductive polymer having structural units derived from the following monomers: (a) a monomer of formula (I):

##STR00001##

and (b) a monomer having an ethylenically unsaturated group which has the following formula:

##STR00002##

wherein A, X, R1, R2, R6 to R9, q and w are described in the specification. The conductive polymer material of the present disclosure has high withstand voltage and high capacitance and can be used for the preparation of solid capacitors or hybrid capacitors. In addition, the conductive polymer material according to the present disclosure has high electrical conductivity and good water washing resistance and is thus useful for an antistatic coating or smart fabrics.

A fabric is provided. The fabric includes a base cloth and a coating layer. The coating layer is disposed on the base cloth, and the coating layer includes a resin matrix and a temperature-regulating powder, wherein the content of the temperature-regulating powder ranges from 20 to 80 parts by weight based on 100 parts by weight of the resin matrix, and the material of the temperature-regulating powder includes modified polyaniline.

Disclosed is an industrial belt that can be used in, for example, conveying or forming engineered wood composites or other industrial products. The industrial belt has a seamable base belt with a coating that includes a polymer, an anti-contaminant, and a conductive anti-static component.

Disclosed is an industrial belt that can be used in, for example, conveying or forming engineered wood composites or other industrial products. The industrial belt has a seamable base belt with a coating that includes a polymer, an anti-contaminant, and a conductive anti-static component.

A synthetic turf system and method includes turf tufted from monofilament fibers of a thermoplastic polymer where about 1 in about 32 tuft rows comprise at least one antistatic filament per tuft. Each antistatic filament has a first nonconductive polymeric component coextensive with a second non-conductive component. One or more of the antistatic filaments substantially reduces static electrical discharge within the turf. The thermoplastic polymer for each fiber may comprise at least one of nylon, polyethylene, polypropylene, and polyester. Each tuft of the tufted turf may be twisted and each tuft may be slit to form multiple ends. The turf system may comprise stitched turf. Each antistatic filament may comprise a carbon core surrounded by a non-conductive sheath, wherein a ratio of the antistatic filament per number of tuft rows may comprise at least one of 1:2, 1:4, 1:8, and 1:16.

A fabric suitable as an alcohol repellent fabric is provided. The fabric includes a fibrous substrate including a first outermost surface and a second outermost surface, in which a non-fluorinated barrier coating (NFBC) is located on at least a portion of a first outermost surface of the fabric, at least a portion of a second outermost surface of the fabric, or both.

An adhesive wiping cloth is provided. The adhesive wiping cloth mainly includes a cloth layer and an oily vinyl acetate copolymer resin-based adhesive layer. The oily vinyl acetate copolymer resin-based adhesive layer is an adhesive layer formed on a surface of the cloth layer, and oily vinyl acetate copolymer resin is infiltrated into fibers of the cloth layer. Dirt such as dust and particles attached on a surface of an object can be removed easily by the oily vinyl acetate copolymer resin-based adhesive layer with adhesiveness without causing scratches or damage to the surface of the object.

The present disclosure provides a conductive polymer material. The conductive polymer material includes a conductive polymer having structural units derived from the following monomers: (a) a monomer of formula (I): ##STR00001## and (b) a monomer having an ethylenically unsaturated group which has the following formula: ##STR00002##
wherein A, X, R1, R2, R6 to R9, q and w are described in the specification. The conductive polymer material of the present disclosure has high withstand voltage and high capacitance and can be used for the preparation of solid capacitors or hybrid capacitors. In addition, the conductive polymer material according to the present disclosure has high electrical conductivity and good water washing resistance and is thus useful for an antistatic coating or smart fabrics.