Provided herein is a pressure sensitive adhesive (PSA) that has balanced high shear and high peel strength. The PSA comprises a combination of epoxy and isocyanate crosslinkers and a polyacrylate tackifier.

Provided herein is a pressure sensitive adhesive (PSA) that has balanced high shear and high peel strength. The PSA comprises a combination of epoxy and isocyanate crosslinkers and a polyacrylate tackifier.

A dirt repellant panel coated with a powder coating composition that includes a polymeric binder and an anionic fluorosurfactant present in an amount ranging from about 0.1 wt. % to about 4 wt. %.

Provided is a secondary battery binder composition containing a water-soluble crosslinked polymer obtained by crosslinking a copolymer containing a (meth)acrylic acid component and a (meth)acrylic acid ester component as constitutional components by an aziridine compound, and water. Also provided are an electrode composition, an electrode sheet, a secondary battery, a production method for the electrode sheet, and a production method for the secondary battery.

Disclosed herein are aqueous coating compositions containing an anionically stabilized polymer, one or more derivatized polyamines, and a volatile base. Coating compositions can further include one or more additional copolymers, which may or may not be anionically stabilized, and/or additional additives, including pigments, defoamers, pigment dispersing agents, thickeners, surfactants, and combinations thereof. By incorporating a derivatized polyamine, such as an alkoxylated polyamine, the setting time of the coating compositions can be decreased. Also provided are coatings formed from the coating compositions described herein, as well as methods of forming these coatings.

Provided is a method of preparing a coating composition for a separator of a secondary battery, and particularly a method including dispersing a first monomer and a surfactant in a solvent to form micelles, adding a first initiator to the solvent and performing first polymerization reaction to form a precursor solution including an emulsion-type binder, and adding a second monomer and a second initiator to the precursor solution and performing second polymerization reaction to form an aqueous binder solution including a solution-type binder, wherein the emulsion-type binder has a core shape, the solution-type binder has a shell shape wrapping the emulsion-type binder, and the emulsion-type binder and the solution-type binder are chemically bonded.

Provided is a method of preparing a coating composition for a separator of a secondary battery, and particularly a method including dispersing a first monomer and a surfactant in a solvent to form micelles, adding a first initiator to the solvent and performing first polymerization reaction to form a precursor solution including an emulsion-type binder, and adding a second monomer and a second initiator to the precursor solution and performing second polymerization reaction to form an aqueous binder solution including a solution-type binder, wherein the emulsion-type binder has a core shape, the solution-type binder has a shell shape wrapping the emulsion-type binder, and the emulsion-type binder and the solution-type binder are chemically bonded.

An anti-corrosive material includes an ultraviolet curable resin including a polymerizable compound and a photopolymerization initiator. The polymerizable compound includes at least one of a photopolymerizable (meth)acrylate monomer or a photopolymerizable (meth)acrylate oligomer. The photopolymerization initiator includes a combination of a first polymerization initiator and a second polymerization initiator. The first polymerization initiator is at least one of a benzyl ketal-based photopolymerization initiator or a hydroxyalkylphenone-based photopolymerization initiator, and the second polymerization initiator is at least one selected from a group consisting of an aminoalkylphenon-based photopolymerization initiator, an acylphosphine oxide-based photopolymerization initiator, and an oxime ester-based photopolymerization initiator. A mass ratio of the first polymerization initiator and the second polymerization initiator is 2:0.1 to 0.5. The anti-corrosive material has a viscosity of 18,900 mPa.Math.s or less.

An anti-corrosive material includes an ultraviolet curable resin including a polymerizable compound and a photopolymerization initiator. The polymerizable compound includes at least one of a photopolymerizable (meth)acrylate monomer or a photopolymerizable (meth)acrylate oligomer, and the photopolymerization initiator includes at least one of an aminoalkylphenon-based photopolymerization initiator or an acylphosphine oxide-based photopolymerization initiator. When being irradiated with excitation light with a wavelength falling within a range from 365 nm to 415 nm, the ultraviolet curable resin emits visible light having a wavelength longer than that of the excitation light. Further, the anti-corrosive material has a viscosity of 18,900 mPa.Math.s or less.

Disclosed herein are elastomeric roof coatings containing a block-copolymer, for example for use as a dispersant. In some embodiments, the roof coating compositions can comprise an all-acrylic or styrene-acrylic latex comprising a block-copolymer used in the latex polymerization. The block-copolymers have a molecular weight exceeding 5000 g/mol wherein the block copolymer has a first block comprising of alkyl acrylate and a second block comprising units of an ethylenically unsaturated monomer with sulfonic acid groups.

The modified elastomeric roof coating compositions are advantageous for reasons of water resistance, wet adhesion, tensile strength, and elongation. Methods of making and using the elastomeric roof coating compositions are also disclosed.