The invention relates to a crosslinkable composition comprising functionalized monomers comprising a crosslinkable group, a cationic group and a fluorinated group, wherein the composition comprises anions corresponding to the cationic groups of the functionalized monomers, wherein the cationic group is an N-substituted cyclic and in particular heteroaromatic group comprising a 5-membered ring and/or at least two heteroatoms and wherein a spacer which is an uncharged and unfluorinated organyl group and preferably an alkylene group is arranged between the cationic group and the fluorinated group.

The invention relates to a crosslinkable composition comprising functionalized monomers comprising a crosslinkable group, a cationic group and a fluorinated group, wherein the composition comprises anions corresponding to the cationic groups of the functionalized monomers, wherein the cationic group is an N-substituted cyclic and in particular heteroaromatic group comprising a 5-membered ring and/or at least two heteroatoms and wherein a spacer which is an uncharged and unfluorinated organyl group and preferably an alkylene group is arranged between the cationic group and the fluorinated group.

A method of using select Schiff base compounds for chemical agent detoxification. The method including applying a compound to the contaminated substrate. The compound includes an imine having at least one Schiff base nitrogen and an alkyl substituent or an aryl substituent having an electron acceptor. The at least one Schiff base nitrogen is spaced away from the electron acceptor by a distance ranging from about 200 pm to about 1000 pm. The substrate and the compound are dried. The at least one Schiff base nitrogen of the compound promotes a nucleophilic attack on an electrophilic site of the toxic chemical agent.

A method of using select Schiff base compounds for chemical agent detoxification. The method including applying a compound to the contaminated substrate. The compound includes an imine having at least one Schiff base nitrogen and an alkyl substituent or an aryl substituent having an electron acceptor. The at least one Schiff base nitrogen is spaced away from the electron acceptor by a distance ranging from about 200 pm to about 1000 pm. The substrate and the compound are dried. The at least one Schiff base nitrogen of the compound promotes a nucleophilic attack on an electrophilic site of the toxic chemical agent.

A fiber-treating agent containing the following components (A) to (C): (A): one or more catechins selected from the group consisting of catechin, epicatechin, epigallocatechin, gallocatechin, catechin gallate, epicatechin gallate, gallocatechin gallate, epigallocatechin gallate, (B): a salt, and (C): water. A method for treating fibers, including immersing the fibers in the fiber-treating agent.

A fiber-treating agent containing the following components (A) to (C): (A): one or more catechins selected from the group consisting of catechin, epicatechin, epigallocatechin, gallocatechin, catechin gallate, epicatechin gallate, gallocatechin gallate, epigallocatechin gallate, (B): a salt, and (C): water. A method for treating fibers, including immersing the fibers in the fiber-treating agent.

A fiber that can exhibit both excellent antistatic properties and high water repellency, and a high bulk nonwoven fabric with a good texture that exhibits high water repellency. More specifically, a highly water repellent fiber that is a conjugate fiber having a plurality of thermoplastic resins as the primary component thereof and having a fiber treatment agent comprising at least Component (A) and Component (B) below deposited thereon at 0.1 to 1.0 wt % in relation to the weight of the fiber, with Component (A) accounting for 75 to 97 wt % and Component (B) accounting for 25 to 3 wt % of the fiber treatment agent: Component (A): polysiloxane Component (B): alkane sulfonate metal salt.

A fiber that can exhibit both excellent antistatic properties and high water repellency, and a high bulk nonwoven fabric with a good texture that exhibits high water repellency. More specifically, a highly water repellent fiber that is a conjugate fiber having a plurality of thermoplastic resins as the primary component thereof and having a fiber treatment agent comprising at least Component (A) and Component (B) below deposited thereon at 0.1 to 1.0 wt % in relation to the weight of the fiber, with Component (A) accounting for 75 to 97 wt % and Component (B) accounting for 25 to 3 wt % of the fiber treatment agent: Component (A): polysiloxane Component (B): alkane sulfonate metal salt.

The invention relates to a crosslinkable composition comprising functionalized monomers comprising a crosslinkable group, a cationic group and a fluorinated group, wherein the composition comprises anions corresponding to the cationic groups of the functionalized monomers, wherein the cationic group is an N-substituted cyclic and in particular heteroaromatic group comprising a 5-membered ring and/or at least two heteroatoms and wherein a spacer which is an uncharged and unfluorinated organyl group and preferably an alkylene group is arranged between the cationic group and the fluorinated group.

The invention relates to a crosslinkable composition comprising functionalized monomers comprising a crosslinkable group, a cationic group and a fluorinated group, wherein the composition comprises anions corresponding to the cationic groups of the functionalized monomers, wherein the cationic group is an N-substituted cyclic and in particular heteroaromatic group comprising a 5-membered ring and/or at least two heteroatoms and wherein a spacer which is an uncharged and unfluorinated organyl group and preferably an alkylene group is arranged between the cationic group and the fluorinated group.