Provided is a transparent conducting film laminate suitable for three-dimensional molding having a curved surface. A transparent conducting film laminate comprising: a transparent substrate made of a transparent thermoplastic resin film, a transparent conducting film formed on at least one main face of the transparent substrate, and containing a binder resin and a metal nanowire, and a protection film formed on the transparent conducting film, and containing a resin component, wherein the binder resin contains at least on kind of poly-N-vinylacetamide, a copolymer containing 70 mol % or more of N-vinylacetamide (NVA) as a monomer unit, and a cellulose-based resin, and 94% by mass or more of the resin component constituting the protection film is derived from a thermoplastic resin.

Provided is a transparent conducting film laminate suitable for three-dimensional molding having a curved surface. A transparent conducting film laminate comprising: a transparent substrate made of a transparent thermoplastic resin film, a transparent conducting film formed on at least one main face of the transparent substrate, and containing a binder resin and a metal nanowire, and a protection film formed on the transparent conducting film, and containing a resin component, wherein the binder resin contains at least on kind of poly-N-vinylacetamide, a copolymer containing 70 mol % or more of N-vinylacetamide (NVA) as a monomer unit, and a cellulose-based resin, and 94% by mass or more of the resin component constituting the protection film is derived from a thermoplastic resin.

Various embodiments of the present invention are directed to switchable carboxybetaine-based polymers, hydrogels, and/or elastomers, along with novel related monomers, crosslinkers, and methods. Under acidic conditions, the materials undergo self-cyclization and can catch and kill bacteria. Under neutral/basic conditions, these materials undergo ring-opening and can release killed bacterial cells and resist protein adsorption and bacterial attachment. These smart polymers, hydrogels and elastomers also show excellent mechanical properties making them highly desirable for many biomedical applications.

Various embodiments of the present invention are directed to switchable carboxybetaine-based polymers, hydrogels, and/or elastomers, along with novel related monomers, crosslinkers, and methods. Under acidic conditions, the materials undergo self-cyclization and can catch and kill bacteria. Under neutral/basic conditions, these materials undergo ring-opening and can release killed bacterial cells and resist protein adsorption and bacterial attachment. These smart polymers, hydrogels and elastomers also show excellent mechanical properties making them highly desirable for many biomedical applications.

A paint composition for vehicle intermediate coating including a polyester resin, a melamine resin, a color pigment, an extender pigment, cellulose nanofibers (CNFs), a dispersant, a surface conditioner, an antisagging agent, and a solvent. The extender pigment may include calcium carbonate (CaCO.sub.3). The paint composition can impart improved chipping resistance to a paint film.

A paint composition for vehicle intermediate coating including a polyester resin, a melamine resin, a color pigment, an extender pigment, cellulose nanofibers (CNFs), a dispersant, a surface conditioner, an antisagging agent, and a solvent. The extender pigment may include calcium carbonate (CaCO.sub.3). The paint composition can impart improved chipping resistance to a paint film.

New and/or improved coatings for porous substrates, including battery separators or separator membranes, and/or coated porous substrates, including coated battery separators, and/or batteries or cells including such coatings or coated separators, and/or related methods including methods of manufacture and/or of use thereof are disclosed. Also, new or improved coatings for porous substrates, including battery separators, which comprise at least a polymeric binder and heat-resistant particles with or without additional additives, materials or components, and/or to new or improved coated porous substrates, including battery separators, where the coating comprises at least a polymeric binder and heat-resistant particles with or without additional additives, materials or components are disclosed. Further, new or improved coatings for porous substrates, including battery separators, and new and/or improved coated porous substrates, including battery separators, new or improved coatings for porous substrates, including battery separators, which comprise at least (i) a polymeric binder, (ii) heat-resistant particles, and (iii) at least one component selected from the group consisting of a cross-linker, a low-temperature shutdown agent, an adhesion agent, and a thickener, and new and/or improved coated porous substrates, including battery separators, where the coating comprises at least (i) a polymeric binder, (ii) heat-resistant particles, and (iii) at least one component selected from the group consisting of a cross-linker, a low-temperature shutdown agent, an adhesion agent, a thickener, a friction-reducing agent, a high-temperature shutdown agent are disclosed.

An antistatic polyester film includes a self-supporting polyester substrate film bearing on at least one surface thereof an antistatic layer including a) one or more antistatic polymers comprising repeat units according to formula (I) wherein R.sup.1 and R.sup.2 are each independently H or CH.sub.3, R.sup.3 is an alkylene group having a carbon number in a range from 2 to 10, R.sup.4 and R.sup.5 are each independently a saturated hydrocarbon group having a carbon number in a range from 1 to 5, R.sup.6 is an alkylene group having a carbon number in a range from 2 to 5, n is an integer in a range from 0 to 40, m is an integer in a range from 1 to 40, and Y is a halogen ion, nitrate ion, sulfate ion, alkylsulfate ion, sulfonate ion, alkylsulfonate ion or dihydrogen phosphate ion; b) one or more nonpolymeric cationic antistatic agents; and c) one or more crosslinkers. ##STR00001##

An antistatic polyester film includes a self-supporting polyester substrate film bearing on at least one surface thereof an antistatic layer including a) one or more antistatic polymers comprising repeat units according to formula (I) wherein R.sup.1 and R.sup.2 are each independently H or CH.sub.3, R.sup.3 is an alkylene group having a carbon number in a range from 2 to 10, R.sup.4 and R.sup.5 are each independently a saturated hydrocarbon group having a carbon number in a range from 1 to 5, R.sup.6 is an alkylene group having a carbon number in a range from 2 to 5, n is an integer in a range from 0 to 40, m is an integer in a range from 1 to 40, and Y is a halogen ion, nitrate ion, sulfate ion, alkylsulfate ion, sulfonate ion, alkylsulfonate ion or dihydrogen phosphate ion; b) one or more nonpolymeric cationic antistatic agents; and c) one or more crosslinkers. ##STR00001##

A method for treating wood. The method comprises adding to wood: (a) a copper-containing wood preservative; and (b) a solution copolymer which is an acrylic polymer comprising from 5 to 40 wt % polymerized units of a nitrogen heterocycle monomer and from 30 to 80 wt % polymerized units of a monomer comprising at least one acid group or comprising at least 2 polymerized units of ethylene oxide.