A method of forming a crosslinked polyphenol, the method comprising: reacting a bio-based phenolic compound comprising at least one phenolic hydroxyl group, with a crosslinking agent comprising at least two functional groups reactive with the phenolic hydroxyl group, wherein the at least two functional groups are each independently a halogen group, acid halide group, sulfonyl halide group, glycidyl group, anhydride group, or a combination comprising at least one of the foregoing, to provide the crosslinked polyphenol.

A surface modifying composition for modifying a surface of a formed product made of high-density polyethylene or ultra-high molecular weight polyethylene, the composition comprising: a copolymer having a unit of a first monomer having an aliphatic group having 10 or more carbon atoms and a unit of a second monomer having any of an amino group, an epoxy group, and an ether group, and a solvent having a boiling point of 100 C. or more and being at least one selected from the group consisting of a halogen-based solvent, an alkane solvent, a cycloalkane solvent, a dicycloalkane solvent, an aromatic solvent, and a nitro-based solvent.

Composition, comprising at least components (A) and (B) and optionally at least one of components (C) to (E): (A) a polyacrylate obtained in the polymerisation of monomers (M1) CH.sub.2CR.sup.3COOR.sup.1 with (M2) CH.sub.2CR.sup.3COOR.sup.2 and optionally (M3) CH.sub.2CR.sup.6COOYR.sub.F (M4) CH.sub.2CR.sup.3XR.sup.4; (B) a wax; (C) a blocked isocyanate; (D) an organic polysiloxane; (E) a melamine resin.

Composition, comprising at least components (A) and (B) and optionally at least one of components (C) to (E): (A) a polyacrylate obtained in the polymerisation of monomers (M1) CH.sub.2CR.sup.3COOR.sup.1 with (M2) CH.sub.2CR.sup.3COOR.sup.2 and optionally (M3) CH.sub.2CR.sup.6COOYR.sub.F (M4) CH.sub.2CR.sup.3XR.sup.4; (B) a wax; (C) a blocked isocyanate; (D) an organic polysiloxane; (E) a melamine resin.

A method of producing a temperature regulating article is disclosed. The method includes combining a functional polymeric phase change material with a substrate. The functional polymeric PCM has the capability of absorbing or releasing heat to adjust heat transfer at or within a temperature stabilizing range and having at least one phase change temperature in the range between 10 C. and 100 C. and a phase change enthalpy of at least 5 Joules per gram, the functional polymeric PCM has a backbone chain, side chains, and a crystallizable section. The side chains form the crystallizable section. The functional PCM carries at least one reactive function on at least one of the side chains or the backbone chain. The reactive function is capable of forming at least a first covalent bond with the second material or with a connecting compound capable of reacting with reactive functions of the second material.

A method of producing a temperature regulating article is disclosed. The method includes combining a functional polymeric phase change material with a substrate. The functional polymeric PCM has the capability of absorbing or releasing heat to adjust heat transfer at or within a temperature stabilizing range and having at least one phase change temperature in the range between 10 C. and 100 C. and a phase change enthalpy of at least 5 Joules per gram, the functional polymeric PCM has a backbone chain, side chains, and a crystallizable section. The side chains form the crystallizable section. The functional PCM carries at least one reactive function on at least one of the side chains or the backbone chain. The reactive function is capable of forming at least a first covalent bond with the second material or with a connecting compound capable of reacting with reactive functions of the second material.

A method of purifying a biological composition includes: disposing loose cationic ligand-functionalized staple fibers and a biological composition within a mixing volume of a vessel; agitating the biological composition and the loose cationic ligand-functionalized staple fibers while they are in intimate contact with each other within the mixing volume to provide modified fibers and a purified biological composition; and separating at least a portion of the purified biological composition from the modified fibers and any loose cationic ligand-functionalized staple fibers with which it is in contact. The loose cationic ligand-functionalized staple fibers have a modified surface layer comprising a grafted acrylic polymer comprising 10 to 100 percent by weight of a cationically-ionizable monomer unit. An article for purifying a biological composition includes: a vessel having a mixing volume disposed therein; and the loose cationic ligand-functionalized staple fibers disposed within the mixing volume.

Aqueous polymer dispersions and their use for producing shaped articles having improved heat resistance are described.

A material for energy management and peak energy reduction in a building structure comprises a base construction material or article selected from cement composite; concrete; asphalt; adobe; brick; and stonework. It further comprises a first phase change material dispersed within the base construction material or article; and a functional polymeric phase change material dispersed within the base construction material or article that dynamically absorbs and releases heat to adjust heat transfer at or within a temperature stabilizing range and having at least one phase change temperature in the range between 10 C. and 100 C. and a phase change enthalpy of at least 5 Joules per gram, the functional polymeric phase change material including a plurality of polymer chains, the plurality of polymer chains including a backbone chain and a plurality of side chains, wherein a portion of the plurality side chains are mechanically entangled with the base construction material or article.

A material for energy management and peak energy reduction in a building structure comprises a base construction material or article selected from cement composite; concrete; asphalt; adobe; brick; and stonework. It further comprises a first phase change material dispersed within the base construction material or article; and a functional polymeric phase change material dispersed within the base construction material or article that dynamically absorbs and releases heat to adjust heat transfer at or within a temperature stabilizing range and having at least one phase change temperature in the range between 10 C. and 100 C. and a phase change enthalpy of at least 5 Joules per gram, the functional polymeric phase change material including a plurality of polymer chains, the plurality of polymer chains including a backbone chain and a plurality of side chains, wherein a portion of the plurality side chains are mechanically entangled with the base construction material or article.