The object of the invention is polymer compositions comprising cross-linked polymer comprising boronic ester functions enabling exchange reactions, as well as free monofunctional boronic esters. The compositions are obtained from the modification of a polymer by a functionalized boronic ester additive. This polymer can be pre-functionalized boronic ester or functionalized on addition of the said additive. In particular, the invention relates to a process enabling the behavior of a polymer to be modified by addition of a functional additive, enabling a cross-linked network containing exchangeable boronic ester links to be formed.

The object of the invention is polymer compositions comprising cross-linked polymer comprising boronic ester functions enabling exchange reactions, as well as free monofunctional boronic esters. The compositions are obtained from the modification of a polymer by a functionalized boronic ester additive. This polymer can be pre-functionalized boronic ester or functionalized on addition of the said additive. In particular, the invention relates to a process enabling the behavior of a polymer to be modified by addition of a functional additive, enabling a cross-linked network containing exchangeable boronic ester links to be formed.

The object of the invention is polymer compositions comprising cross-linked polymer comprising boronic ester functions enabling exchange reactions, as well as free monofunctional boronic esters. The compositions are obtained from the modification of a polymer by a functionalized boronic ester additive. This polymer can be pre-functionalized boronic ester or functionalized on addition of the said additive. In particular, the invention relates to a process enabling the behavior of a polymer to be modified by addition of a functional additive, enabling a cross-linked network containing exchangeable boronic ester links to be formed.

A surface finish composition including a silica-bonded reversibly cross-linked co-polymer and a water-dispersible polyurethane. The silica-bonded reversibly cross-linked co-polymer includes a base co-polymer including monomers derived from one or more ethylenic polymerizable monomers and an alkoxysilyl acrylate; a reversible cross-linking agent; and a silica nanoparticle bonded to the base co-polymer. The amount of water-dispersible polyurethane is 15-50% by weight of the combined amount of water-dispersible polyurethane and base co-polymer.

A surface finish composition including a silica-bonded reversibly cross-linked co-polymer and a water-dispersible polyurethane. The silica-bonded reversibly cross-linked co-polymer includes a base co-polymer including monomers derived from one or more ethylenic polymerizable monomers and an alkoxysilyl acrylate; a reversible cross-linking agent; and a silica nanoparticle bonded to the base co-polymer. The amount of water-dispersible polyurethane is 15-50% by weight of the combined amount of water-dispersible polyurethane and base co-polymer.

Provided is an antifouling coating composition, which can form a coating film having good hardness and good physical properties and having a wear degree appropriate for expressing a long-term antifouling effect, has a viscosity not being excessively high, and makes it possible to reduce a content of volatile organic compounds, and a polymer-containing composition which is suitable for obtaining the antifouling coating composition. The polymer-containing composition contains a (meth)acryl-based copolymer (A-1), in which the (meth)acryl-based copolymer (A-1) contains a constitutional unit (U11) or a constitutional unit (U12) having carboxylate forming an ionic bond with a divalent metal atom, and has a weight-average molecular weight of 1,000 to 5,000, and the polymer-containing composition has a coating film hardness (Martens hardness) equal to or higher than 2.5 N/mm.sup.2.

A curable resin composition, comprising a compound represented by the following general formula (1):

##STR00001##

wherein X is a functional group comprising a reactive group, and R.sup.1 and R.sup.2 each independently represent a hydrogen atom, or an aliphatic hydrocarbon group, aryl group or heterocyclic group that may have a substituent; and at least organometallic compound selected from the group consisting of metal alkoxides and metal chelates.

The present invention relates to a glucose-reactive artificial muscle, and more particularly, to a carbon nanotube, a hydrogel-based glucose-reactive artificial muscle which has a reversible volume change due to variations in glucose concentration, a method of forming the same, a rotary artificial muscle using the same, and a method of detecting glucose. The glucose-reactive artificial muscle according to the present invention may sense variations in glucose concentration with high sensitivity within a short time by providing reversible twisting using the swelling and shrinkage of hydrogels, which occur due to a change in internal anionic charges, caused by the bonding between a boronic acid introduced to the hydrogels and glucose.

The present invention relates to a glucose-reactive artificial muscle, and more particularly, to a carbon nanotube, a hydrogel-based glucose-reactive artificial muscle which has a reversible volume change due to variations in glucose concentration, a method of forming the same, a rotary artificial muscle using the same, and a method of detecting glucose. The glucose-reactive artificial muscle according to the present invention may sense variations in glucose concentration with high sensitivity within a short time by providing reversible twisting using the swelling and shrinkage of hydrogels, which occur due to a change in internal anionic charges, caused by the bonding between a boronic acid introduced to the hydrogels and glucose.

Anion-coordinating polymers comprising one or more anion-coordinating unit of Formula (I), optionally in combination with one or more cation-coordinating unit of Formula (II) and/or a linking unit of Formula (III) and related electrolytes, batteries, methods and system.