This disclosure provides methods that render hydrophobic carbon fiber paper (CFP) hydrophilic for extended periods without damaging the carbon fibers that compose the CFP or the architecture of the network of those carbon fibers. The disclosure further provides hydrophilic CFP made by the inventive methods. The methods include sonicating the CFP in an aqueous surfactant solution followed by electrooxidizing the CFP in an aqueous electrolyte.

The invention relates to an aqueous insolubilizer composition intended for the surface treatment of paper and cardboard, comprising a mixture composed of glyoxal and of at least one alkali metal orthophosphate, and also its use.

The invention relates to an aqueous insolubilizer composition intended for the surface treatment of paper and cardboard, comprising a mixture composed of glyoxal and of at least one alkali metal orthophosphate, and also its use.

Methods for making phenolic resins modified with one or more monosaccharides and methods for making composite products therewith are provided. In at least one specific embodiment, a method for making a composite product can include contacting a plurality of cellulosic sheets with a resin composition that includes a phenolic resin and a monosaccharide. The resin composition can include about 0.5 wt % to about 30 wt % of the monosaccharide, based on a combined weight of the phenolic resin and the monosaccharide. The method can also include at least partially curing the resin composition to produce a composite product.

Methods for making phenolic resins modified with one or more monosaccharides and methods for making composite products therewith are provided. In at least one specific embodiment, a method for making a composite product can include contacting a plurality of cellulosic sheets with a resin composition that includes a phenolic resin and a monosaccharide. The resin composition can include about 0.5 wt % to about 30 wt % of the monosaccharide, based on a combined weight of the phenolic resin and the monosaccharide. The method can also include at least partially curing the resin composition to produce a composite product.

Zinc or copper (II) salt which can be used as a biocide, having the general formula CH.sub.2C(R.sup.1)COMOCOR.sup.2(OH).sub.m(COOH).sub.n wherein M is Zn or Cu, R.sup.1 is selected from the group comprising hydrogen and methyl, R.sup.2 is substituted C.sub.1-C.sub.5 alkyl, m=0-5, n=0-2, m+n=1-5.

The method for producing a surface-modified base material according to the present invention includes a step of bringing a base material having a polar group present on a surface thereof into contact with a hydrosilane compound having a molecular structure A and having a SiH group composed of a silicon atom of the molecular structure A and a hydrogen atom bonded to the silicon atom in the presence of a borane catalyst so as to allow a dehydrocondensation reaction to take place between the base material and the compound, thereby forming the base material surface-modified with the molecular structure A. This production method is capable of surface-modifying a base material at a lower temperature in a shorter time than conventional methods and allows a wide variety of options for the form, type, and application of the base material, the mode of the modification reaction, and the type of the molecular structure with which the base material is surface-modified.

The method for producing a surface-modified base material according to the present invention includes a step of bringing a base material having a polar group present on a surface thereof into contact with a hydrosilane compound having a molecular structure A and having a SiH group composed of a silicon atom of the molecular structure A and a hydrogen atom bonded to the silicon atom in the presence of a borane catalyst so as to allow a dehydrocondensation reaction to take place between the base material and the compound, thereby forming the base material surface-modified with the molecular structure A. This production method is capable of surface-modifying a base material at a lower temperature in a shorter time than conventional methods and allows a wide variety of options for the form, type, and application of the base material, the mode of the modification reaction, and the type of the molecular structure with which the base material is surface-modified.

A composition, and related method, adapted for making a tissue product with antiviral and antibacterial properties includes water-soluble copper metal ions with an oxidation state of +2 (II), polyethylene glycol (PEG), and polyvinylpyrrolidone (PVP).

A composition, and related method, adapted for making a tissue product with antiviral and antibacterial properties includes water-soluble copper metal ions with an oxidation state of +2 (II), polyethylene glycol (PEG), and polyvinylpyrrolidone (PVP).