A composition with antimicrobial properties for impregnation of staple fibers and filaments comprising: titanium dioxide; a salt comprising silver and phosphate ions; copper oxide; and a mixed oxidation state silver oxide. A masterbatch formulation which includes the composition defined above is also taught as is a method for producing polymer filaments using the masterbatches. A material having wound healing properties and a material having beneficial cosmetic properties are taught, the materials comprising a polymer having incorporated therein the composition described above.

The invention is to provide an article with a super-hydrophobic surface and a method for preparing the same. The article with a super-hydrophobic surface provided by in situ formation of a plurality of hexadecyl trimethoxy silane modified Mg—Al layered double hydroxides on the surface of the article. The water contact angle of the article is not less than 130°.

There is provided an impregnated natural fiber including a cuticle and an interior lumen, the cuticle circumscribing the interior lumen; and insoluble particulates possessing a preselected property embedded in the fiber. The particulates comprise at least 0.1-30 wt. % of the impregnated fiber and the particulates are embedded on the cuticle and within the lumen of the fiber. The fiber has an increased strength, micronaire value and rate of water absorption. Also provided is a system for surface treating cellulose sliver fibers. The system includes a vessel containing a moist paste which comprises at least one particulate material possessing one or more preselected desired properties, a thickening agent and water. The paste from the vessel is dispensed directly onto sliver fiber ribbon(s). A bore sonotrode generates ultrasonic waves which embed the particulate material(s) in the sliver fibers.

There is provided an impregnated natural fiber including a cuticle and an interior lumen, the cuticle circumscribing the interior lumen; and insoluble particulates possessing a preselected property embedded in the fiber. The particulates comprise at least 0.1-30 wt. % of the impregnated fiber and the particulates are embedded on the cuticle and within the lumen of the fiber. The fiber has an increased strength, micronaire value and rate of water absorption. Also provided is a system for surface treating cellulose sliver fibers. The system includes a vessel containing a moist paste which comprises at least one particulate material possessing one or more preselected desired properties, a thickening agent and water. The paste from the vessel is dispensed directly onto sliver fiber ribbon(s). A bore sonotrode generates ultrasonic waves which embed the particulate material(s) in the sliver fibers.

A multifunctional high-strength composite fabric coating agent, a coating, a method for preparing the same and an application thereof are provided. The fabric coating agent includes a resin, a reinforcing agent with a reactive group, a bifunctional dispersing agent, a leveling agent, a film forming agent, a softening agent, an antibacterial agent, a solvent, and the like. The reinforcing agent is modified such that it has active functional groups of —OH and NH.sub.3. The fabric coating agent is not only easy to apply, fast to react and stabilize, but also suitable for a fabric surface of any material. A treated fabric has high tensile-breaking strength, excellent tearing and bursting performance, good waterproof-and-moisture-permeability and antibacterial performance, and high adhesion. It can be repeatedly knife coated, roll coated, calendared, or dipped. The method is not only mature in technology and low in production cost, but also suitable for large-scale application.

A multifunctional high-strength composite fabric coating agent, a coating, a method for preparing the same and an application thereof are provided. The fabric coating agent includes a resin, a reinforcing agent with a reactive group, a bifunctional dispersing agent, a leveling agent, a film forming agent, a softening agent, an antibacterial agent, a solvent, and the like. The reinforcing agent is modified such that it has active functional groups of —OH and NH.sub.3. The fabric coating agent is not only easy to apply, fast to react and stabilize, but also suitable for a fabric surface of any material. A treated fabric has high tensile-breaking strength, excellent tearing and bursting performance, good waterproof-and-moisture-permeability and antibacterial performance, and high adhesion. It can be repeatedly knife coated, roll coated, calendared, or dipped. The method is not only mature in technology and low in production cost, but also suitable for large-scale application.

An antibacterial textile is directed to a textile mainly formed by mixedly weaving a first yarn, a second yarn, and a copper yarn. The first yarn is exposed in an inside layer of the textile, and a material thereof has hydrophobicity and moisture permeability, to form a water-resistant surface. The second yarn and the copper yarn are exposed in an outside layer of the textile, and a material of the second yarn has moisture draining performance, to form an antibacterial and moisture draining surface. Therefore, when apparel made of the textile is worn, a water-resistant surface in contact with skin does not get wet after absorbing sweater under slight pressure. The sweat is absorbed by a moisture draining surface on the outside layer via the water-resistant surface, and the moisture is exhausted, so that the inside layer of the apparel still maintains dry and clean.

An antibacterial textile is directed to a textile mainly formed by mixedly weaving a first yarn, a second yarn, and a copper yarn. The first yarn is exposed in an inside layer of the textile, and a material thereof has hydrophobicity and moisture permeability, to form a water-resistant surface. The second yarn and the copper yarn are exposed in an outside layer of the textile, and a material of the second yarn has moisture draining performance, to form an antibacterial and moisture draining surface. Therefore, when apparel made of the textile is worn, a water-resistant surface in contact with skin does not get wet after absorbing sweater under slight pressure. The sweat is absorbed by a moisture draining surface on the outside layer via the water-resistant surface, and the moisture is exhausted, so that the inside layer of the apparel still maintains dry and clean.

The present invention relates to methods and articles for wound healing involving the use of a material having antimicrobial properties, said material comprising a synergistic combination of at least two metal oxide powders, comprising a mixed oxidation state oxide of a first metal and a single oxidation state oxide of a second metal, wherein the mixed oxidation state oxide constitutes from about 0.05% to about 15% wt. of the total weight of the synergistic combination of the at least two metal oxide powders and wherein the ions of the metal powders are in ionic contact upon exposure of said material to moisture.

The present invention relates to methods and articles for wound healing involving the use of a material having antimicrobial properties, said material comprising a synergistic combination of at least two metal oxide powders, comprising a mixed oxidation state oxide of a first metal and a single oxidation state oxide of a second metal, wherein the mixed oxidation state oxide constitutes from about 0.05% to about 15% wt. of the total weight of the synergistic combination of the at least two metal oxide powders and wherein the ions of the metal powders are in ionic contact upon exposure of said material to moisture.