A composition for inhibiting the attachment of DNA viruses to a surface can include a liquid carrier, an anti-adherent agent, and a humectant. The anti-adherent agent can include C12-16 Alkyl PEG-2 Hydroxypropyl Hydroxyethyl Ethylcellulose. A method for inhibiting the adherence of DNA viruses to a surface can include providing a composition that includes an anti-adherent agent including C12-16 Alkyl PEG-2 Hydroxypropyl Hydroxyethyl Ethylcellulose. The method can also include applying the composition to the surface to inhibit the adherence of DNA viruses to the surface.

Self-healable, omniphobic coatings and related methods are provided. In embodiments, a self-healable, omniphobic coating comprises a matrix of crosslinked, entangled hydrogel polymers, the hydrogel polymers comprising hydroxyl (OH) groups, hydroxyl group precursors, or both, and nanoparticles distributed throughout the matrix; and fluorinated silane molecules covalently bound to the matrix.

[Problem] To provide a silver nanowire ink that is capable of stably suppressing the decrease in conductivity of the silver nanowire conductive layer caused by coating a coating liquid for forming a transparent conductive layer.

[Solution] A silver nanowire ink containing a water soluble cellulose ether having a methoxy group, and silver nanowires, in an aqueous solvent, the water soluble cellulose ether having a mass proportion of a methoxy group of from 16.0 to 25.0%. Particularly preferred examples of the water soluble cellulose ether include HPMC having a mass proportion of a hydroxypropoxy group of 10.0% or less and HEMC having a mass proportion of a hydroxyethoxy group of 12.0% or less.

Various embodiments disclosed relate to visually transparent UV-absorbing coatings including ZnO nanoparticles. The coating includes ZnO nanoparticles, hydroxy(C.sub.1-C.sub.10)alkyl cellulose, a dispersant, and less than about 5 wt % water.

A manufacturing process for an anti-dust and easily dispersible carbon black pigment is disclosed herein. The pigment is convenient to handle and does not generate potentially hazardous airborne particles during transportationor duringany suitable processing conditions employed in end applications in the relevant industry including cosmetics, paint or ink.

Compositions for inhibiting the attachment of microbes to surfaces are disclosed. The compositions include a carrier and an effective amount of an anti-adherent agent. The anti-adherent agents include Hydroxypropyl methylcellulose; Methylcellulose, Hydroxypropylcellulose, Hydroxyethylcellulose, Dimethicone PEG-7 Phosphate, Propylene Glycol Alginate, Bis-PEG-15 Dimethicone/IPDI Copolymer, Polyimide-1, Polyquaternium-101, Polyester-5, Hydrolyzed Wheat Protein/PVP Crosspolymer, Polymethacrylamidopropyl Trimonium Chloride, Ethylene Oxide/Propylene Oxide Block Copolymer, Trideceth-9 PG-Amodimethicone (and) Trideceth-12, PEG-12 Dimethicone, Cyclopentasiloxane (and) Caprylyl Dimethicone Ethoxy Glucoside, Dimethicone PEG-8 succinate, Linoleamidopropyl PG-Dimonium Chloride Phosphate Dimethicone, Polyvinyl Pyrrolidone; Gum; Polyacrylate Crosspolymer-11; PEG-8 SMDI Copolymer; Polyvinyl Alcohol; VP/Dimethylaminoethylmethacrylate/Polycarbamyl Polyglycol Ester; VP/Polycarbamyl Polyglycol Ester; VP/Dimethiconylacrylate/polycarbamyl Polyglycol Ester; Acrylates/Steareth-20 Methacrylate Copolymer; a mixture of Acrylates Copolymer and VP/Polycarbamyl Polyglycol Ester; and any combination thereof. Various delivery vehicles, such as wipes, may be used to deliver the composition to surfaces.

The present disclosure relates to support structures for three dimensional (3D) printing, methods of preparing the support structures, and methods of using the support structures. In particular, the support structures comprise a hydrogel comprised of a cellulose derivative. Preferably, the support structures are biodegradable and easily removed without generating toxic waste.

A coating composition is provided. The coating composition includes a wet-milled product obtained by applying a shear force to an aqueous suspension of low-substituted cellulose ether having a molar substitution of from 0.05 to 1.0 per anhydrous glucose unit. The aqueous suspension of low-substituted cellulose ether is obtained by suspending and dispersing the low-substituted cellulose ether in water and a short chain alcohol.

The present invention includes acidifying film coating compositions containing a polymer and an acidic component for use on orally-ingestible substrates such as tablets and the like. The acidifying coating compositions can be applied as an aqueous dispersion to an enteric-coated substrate to increase the disintegration resistance to aqueous media of up to pH 5.0. In preferred aspects, the acidic component is citric acid, lactic acid, stearic acid or mixtures thereof. Methods of preparing the dry film coatings, methods of preparing corresponding aqueous dispersions, methods of applying the coatings to substrates and the coated substrates themselves are also disclosed.

The present invention includes acidifying film coating compositions containing a polymer and an acidic component for use on orally-ingestible substrates such as tablets and the like. The acidifying coating compositions can be applied as an aqueous dispersion to an enteric-coated substrate to increase the disintegration resistance to aqueous media of up to pH 5.0. In preferred aspects, the acidic component is citric acid, lactic acid, stearic acid or mixtures thereof. Methods of preparing the dry film coatings, methods of preparing corresponding aqueous dispersions, methods of applying the coatings to substrates and the coated substrates themselves are also disclosed.