Disclosed are novel phosphono-phosphate polymer compositions with multi-valent cations in aqueous solutions. These compositions can further include mono or multivalent anions.

Disclosed is a liquid polymerizable composition including a phosphine oxide or a phosphine sulphide monomer composition with mineral nanoparticles homogeneously dispersed therein, as well as its use for the preparation of a transparent polymeric material having a high refractive index and its use in the optical field.

Disclosed is a liquid polymerizable composition including a phosphine oxide or a phosphine sulphide monomer composition with mineral nanoparticles homogeneously dispersed therein, as well as its use for the preparation of a transparent polymeric material having a high refractive index and its use in the optical field.

This disclosure provides phosphonium polymers with increased hydrophilicity exhibiting increased antibacterial activity and decreased hemolytic activity. These phosphonium polymers include Poly(THPvbPCl) poly(tris(3-hydroxypropyl)(vinylbenzyl)phosphonium chloride) and derivatives thereof, ((2,3,4,6-Tetra-O-acetyl-manno-pyranyl)-1-oxy-allyl and derivatives thereof, and poly(dihexyl(2,3,4,6,-hydroxy-gluco-pyranyl)-1-oxy-propyl)vinylbenzylphosphonium chloride) and derivatives thereof.

This disclosure provides phosphonium polymers with increased hydrophilicity exhibiting increased antibacterial activity and decreased hemolytic activity. These phosphonium polymers include Poly(THPvbPCl) poly(tris(3-hydroxypropyl)(vinylbenzyl)phosphonium chloride) and derivatives thereof, ((2,3,4,6-Tetra-O-acetyl-manno-pyranyl)-1-oxy-allyl and derivatives thereof, and poly(dihexyl(2,3,4,6,-hydroxy-gluco-pyranyl)-1-oxy-propyl)vinylbenzylphosphonium chloride) and derivatives thereof.

Disclosed are novel phosphono-phosphate and anionic group containing polymer compositions that have targeted uses with divalent cations and surfaces having divalent cations. These compounds can be used to deliver anionic character to surfaces such as calcium hydroxyapatite.

Disclosed are novel phosphono-phosphate and anionic group containing polymer compositions that have targeted uses with divalent cations and surfaces having divalent cations. These compounds can be used to deliver anionic character to surfaces such as calcium hydroxyapatite.

A poly(vinylphosphonic acid) (PVPA)(NH.sub.4).sub.2MoO.sub.4), gel polymer electrolyte can be prepared by incorporating redox-mediated Mo, or similar metal, into a PVPA, or similar polymer, matrix. Gel polymer electrolytes including PVPA/MoX, x representing the percent fraction Mo in PVPA, can be used to make supercapacitors including active carbon electrodes. The electrolytes can be in gel form, bendable and stretchable in a device. Devices including this gel electrolyte can have a specific capacitance (Cs) of 1276 F/g, i.e., a more than 50-fold increase relative to a PVPA system without Mo. A PVPA/Mo10 supercapacitor can have an energy density of 180.2 Wh/kg at power density of 500 W/kg, and devices with this hydrogel structure may maintain 85+% of their initial capacitance performance after 2300 charge-discharge cycles.

A poly(vinylphosphonic acid) (PVPA)(NH.sub.4).sub.2MoO.sub.4), gel polymer electrolyte can be prepared by incorporating redox-mediated Mo, or similar metal, into a PVPA, or similar polymer, matrix. Gel polymer electrolytes including PVPA/MoX, x representing the percent fraction Mo in PVPA, can be used to make supercapacitors including active carbon electrodes. The electrolytes can be in gel form, bendable and stretchable in a device. Devices including this gel electrolyte can have a specific capacitance (Cs) of 1276 F/g, i.e., a more than 50-fold increase relative to a PVPA system without Mo. A PVPA/Mo10 supercapacitor can have an energy density of 180.2 Wh/kg at power density of 500 W/kg, and devices with this hydrogel structure may maintain 85+% of their initial capacitance performance after 2300 charge-discharge cycles.

Disclosed is a liquid polymerizable composition including a phosphine oxide or a phosphine sulphide monomer composition with mineral nanoparticles homogeneously dispersed therein, as well as its use for the preparation of a transparent polymeric material having a high refractive index and its use in the optical field.