The invention relates to porous polymeric cellulose prepared via cellulose crosslinking. The porous polymeric cellulose can be incorporated into membranes and/or hydrogels. In preferred embodiments, the membranes and/or hydrogels can provide high dynamic binding capacity at high flow rates. Membranes and/or hydrogels comprising the porous polymeric cellulose are particularly suitable for filtration, separation, and/or functionalization media.

The present invention provides a fiber modifier composed of an internal olefin sulfonate having 17 or more and 24 or less carbons.

Fragrant and antimicrobial properties were conferred to cotton fabrics following microencapsulation using green materials. Limonene and vanillin microcapsules were produced by complex coacervation using chitosan/gum Arabic as shell materials and tannic acid as hardening agent. The effect of two emulsifiers; Span 85 and polyglycerol polyricinoleate (PGPR), on the encapsulation efficiency (EE %), microcapsule's size and morphology, and cumulative release profiles was studied. The use of Span 85 resulted in mononuclear morphology while PGPR gave rise to polynuclear structures, regardless of the core material (vanillin or limonene). The obtained microcapsules demonstrated a sustained release patter. Grafting of the produced microcapsules onto cotton fabrics through an esterification reaction using citric acid as anon-toxic cross-linker followed by thermofixation and curing, was confirmed by SEM and FTIR spectroscopy. Standard antibacterial assays conducted on both microcapsules alone and impregnated onto the fabrics indicated a sustained antibacterial activity.

Fragrant and antimicrobial properties were conferred to cotton fabrics following microencapsulation using green materials. Limonene and vanillin microcapsules were produced by complex coacervation using chitosan/gum Arabic as shell materials and tannic acid as hardening agent. The effect of two emulsifiers; Span 85 and polyglycerol polyricinoleate (PGPR), on the encapsulation efficiency (EE %), microcapsule's size and morphology, and cumulative release profiles was studied. The use of Span 85 resulted in mononuclear morphology while PGPR gave rise to polynuclear structures, regardless of the core material (vanillin or limonene). The obtained microcapsules demonstrated a sustained release patter. Grafting of the produced microcapsules onto cotton fabrics through an esterification reaction using citric acid as anon-toxic cross-linker followed by thermofixation and curing, was confirmed by SEM and FTIR spectroscopy. Standard antibacterial assays conducted on both microcapsules alone and impregnated onto the fabrics indicated a sustained antibacterial activity.

The present invention relates to aqueous silane emulsions based on specific hydrolysable silanes anionic and non-ionic surfactants, a textile comprising a coating obtainable by impregnating the textile with the aqueous silane emulsion according to the present invention and the use of the aqueous silane emulsion according to the present invention for treating textiles. Moreover, the invention also encompasses a method of impregnating a textile with the aqueous silane emulsion according to the present invention as obtained via dilution from a concentrated system.

The present invention relates to aqueous silane emulsions based on specific hydrolysable silanes anionic and non-ionic surfactants, a textile comprising a coating obtainable by impregnating the textile with the aqueous silane emulsion according to the present invention and the use of the aqueous silane emulsion according to the present invention for treating textiles. Moreover, the invention also encompasses a method of impregnating a textile with the aqueous silane emulsion according to the present invention as obtained via dilution from a concentrated system.

An ambient humidity control article for controlling ambient humidity within 55%-68%. The article includes a substrate having a predetermined water absorbability, and a humidity control layer coated on the substrate and made up of a humidity control composition. The amount of the composition coated on per cubic centimeter of the substrate is 0.54-0.74 grams. The composition includes water and at least one of citrate, lactate and formate. The citrate is at least one of sodium citrate, potassium citrate and calcium citrate. The lactate is at least one of sodium lactate and potassium lactate. The formate is at least one of sodium formate and potassium formate. The weight percentage of each of the citrate, lactate and formate in the composition is 33.3%-84.2%. The water absorption amount of the substrate is not less than 0.5 grams per cubic centimeter.

An ambient humidity control article for controlling ambient humidity within 55%-68%. The article includes a substrate having a predetermined water absorbability, and a humidity control layer coated on the substrate and made up of a humidity control composition. The amount of the composition coated on per cubic centimeter of the substrate is 0.54-0.74 grams. The composition includes water and at least one of citrate, lactate and formate. The citrate is at least one of sodium citrate, potassium citrate and calcium citrate. The lactate is at least one of sodium lactate and potassium lactate. The formate is at least one of sodium formate and potassium formate. The weight percentage of each of the citrate, lactate and formate in the composition is 33.3%-84.2%. The water absorption amount of the substrate is not less than 0.5 grams per cubic centimeter.

An oil agent for a carbon fiber precursor is provided that contains a base component, a cationic surfactant, and a nonionic surfactant, wherein the cationic surfactant is a specific nitrogen-containing compound.

An oil agent for a carbon fiber precursor is provided that contains a base component, a cationic surfactant, and a nonionic surfactant, wherein the cationic surfactant is a specific nitrogen-containing compound.