Described are dissolvable, porous solid structures formed using certain vinyl acetate-vinyl alcohol copolymers. The copolymer and the porosity of the structure allow for liquid flow during use such that the structure readily dissolves to provide a desired consumer experience. Also described are processes for making open cell foam and fibrous dissolvable solid structures.

A method for producing a metal pattern by processing a substrate having on its surface a metal layer with a photosensitive fiber having a specific composition, a method for producing a metal pattern, and a composition for producing the photosensitive fiber. The photosensitive fiber contains a positive photosensitive material. The positive photosensitive material may contain a novolac resin, etc. The method for producing a metal pattern includes a first step of forming a fiber layer of photosensitive resin on a substrate having on its surface a metal layer; a second step of exposing the fiber layer to light via a mask; a third step of developing the fiber layer with a developer to thereby form a photosensitive fiber pattern; and a fourth step of etching the metal layer with an etchant and removing the photosensitive fiber, to thereby form a network metal pattern.

A method for producing a metal pattern by processing a substrate having on its surface a metal layer with a photosensitive fiber having a specific composition, a method for producing a metal pattern, and a composition for producing the photosensitive fiber. The photosensitive fiber contains a positive photosensitive material. The positive photosensitive material may contain a novolac resin, etc. The method for producing a metal pattern includes a first step of forming a fiber layer of photosensitive resin on a substrate having on its surface a metal layer; a second step of exposing the fiber layer to light via a mask; a third step of developing the fiber layer with a developer to thereby form a photosensitive fiber pattern; and a fourth step of etching the metal layer with an etchant and removing the photosensitive fiber, to thereby form a network metal pattern.

Fibrous elements containing one or more fibrous element-forming materials and one or more polyethylene oxides, and methods for making same are provided.

Fibrous elements containing one or more fibrous element-forming materials and one or more polyethylene oxides, and methods for making same are provided.

Fibrous elements containing one or more fibrous element-forming materials and one or more polyethylene oxides, and methods for making same are provided.

Fibrous elements containing one or more fibrous element-forming materials and one or more polyethylene oxides, and methods for making same are provided.

This invention provides antibacterial and antiviral compositions and methods. The compositions possess prolonged and powerful antibacterial/antiviral functions under light exposure and even under completely dark conditions, while daylight exposures could recharge the functions repeatedly. In some embodiments, compositions of the invention can be employed in personal protective equipment (PPE) such as face masks, biologically self-cleaning air and water filters, medical devices, and products. The biocidal PPE can prevent transmission of infectious diseases such as Ebola and respiratory viruses. In some embodiments, compositions of the invention can be employed in food protectant materials to provide antimicrobial and antiviral bio-protection during food transportation and storage.

The present invention provides a method for manufacturing a polyacetal fiber in which whiteness irregularity is improved. One embodiment of the present invention provides a method for manufacturing a polyacetal fiber, wherein the method includes a discharge step, a takeup step, a stretching step, and a winding step, the steps being continuously performed, an oxymethylene copolymer being used as the raw material of the polyacetal fiber, the oxymethylene copolymer having an oxymethylene unit and an oxyethylene unit, the content of the oxyethylene unit being 0.5-7.0 moles to 100 moles of the oxymethylene unit, the roller temperature of a stretching unit used in the stretching step being 130-155° C., and operation parameters of the method being set so as to satisfy a prescribed numerical formula.

Fibrous elements containing one or more fibrous element-forming materials and one or more polyethylene oxides, and methods for making same are provided.