The invention relates to a granulate comprising an inorganic solid carrier with at least one biosurfactant contained thereon, as well as to formulations containing this granulate and to the use of same.

The disclosure relates to a silica-based structurant and methods of making such a structurant. According to one embodiment, the structurant may include 55 wt % to 90 wt % of a silica having a [Na.sub.2O]/[SiO.sub.2] molar ratio of from 0.02 to 0.14 and at least 15 wt % of an adjunct salt. The structurant may have a hydrated particle size distribution such that no more than 30 wt % of the structurant has a hydrated particle size greater than 45 micrometers according to the Structurant Residue Test. The structurant may also have a tapped bulk density of from 200 g/L to 300 g/L. Methods of making the structurant include combining starting materials with a non-stoichiometric amount of acid, then drying the reaction mixture without first washing any silica-based particles to produce a silica-based structurant with adjunct salt.

A detergent composition includes a surfactant component present in an amount of from about 5 to about 70 weight percent actives based on a total weight of the composition, water present in an amount of from about 5 to about 90 weight percent based on a total weight of the composition, polyvinyl alcohol particles present in an amount of from about 0.1 to about 5 weight percent based on a total weight of the composition, and a functional material that is encapsulated in the polyvinyl alcohol particles and is chosen from enzymes, surfactants, functional polymers, and combinations thereof and present in an amount of from about 0.05 to about 2 weight percent actives based on a total weight of the composition.

A cleaning composition comprising a particle said particle comprising: (a) from 30 to 70% by weight thereof of a polymer having a softening point in the range from about 20° C. to about 60° C.; (b) from 20 to 60% by weight thereof of a first material having a BET surface area greater than 100 m2/g and a D50 from about 5 to about 20 μm; (c) from 3 wt % to 15% by weight thereof of a second material having a BET surface area from about 0.01 to about 5 m2/g and a D50 from about 30 to about 100 μm.

An aqueous formulation for treating insects and fungal diseases on plants includes effective amounts of an HOCl-containing electrolyzed oxygenated aqueous solution, one or both of a food grade diatomaceous earth and a clinoptilolite zeolite, and one or more of a sodium magnesium fluorosilicate and a bentonite clay. The formulation, which is non-toxic to humans and pets, can be sprayed on the plants to kill insects and fungi and has a long dwell time to improve the effectiveness of the components of the formulation against insects and fungi. In particular, the formulation will kill bacteria, virus, mold, fungi, and may be used on food crops. The formulation also may be used as a plant and foliar cleaner and/or the formulation can be used to treat skin of a person to improve skin health.

The invention provides a method of cleaning a vehicle comprising: providing a powder composition; providing water; mixing the powder composition and the water to form a liquid cleaning formulation; and applying the liquid cleaning formulation to a surface of a vehicle, wherein the powder composition comprising: surfactant; silicate selected from magnesium lithium silicates and mixtures thereof; hygroscopic agent; at least 20 wt % carbonate salt; and at least 20 wt % acid.

A natural cleaning and herbicide composition having an quaternary ammonium compound, one or more additional amine-based surfactants, and an herbicidally active limonene component, that synergistically creates an effective COVID-19 disinfectant in wipes, an effective clearer for bulk cleaning applications, as well as an impressive gross soils remover following EPA protocol. The composition may further contain sodium silicate, tetrasodium iminodisuccinate, an ethanolamine, caustic potash, and/or water. A formulation of the present disclosure comprises a mixture of about 74% soft water, about 1% Tetrasodium Iminodisuccinate, about 0.5% Monoethanolamine, about 0.5% Sodium Silicate, about 2% alkali surfactant, about 12% Ethoxylated Amine, about 1% Amine Oxide, about 1% Quaternary Amine, and about 6% Limonene.

Liquid fabric care compositions that include certain fabric treatment adjuncts and/or water, where the compositions further include capsules characterized by substantially inorganic shells, for example silica-based shells. The present disclosure further relates to methods of making and using such compositions.

Formulations comprising a nanostructured particles consisting of a solid acid, made of mixed oxides of silica and titania (TiO.sub.2—SiO.sub.2); supporting in its dispersed matrix: copper, silver, gold, iron, rutenium, rhodium, cobalt, zinc, palladium, zinc, manganese, iridium and/or platinum metals at minimal concentrations, and at least one functionalizing agent in contact with the particle, for use as a surface, material and personal cleaner.

An engineered crystalline structure created from a solution containing silica dioxide that is applied on a surface and dries forming a barrier coating on the treated surface. The formed of the barrier coating has proven to be an effective antimicrobial barrier solely with inert ingredients. Moreover, the established barrier has been shown to eradicate SARS-CoV-2 within two hours without chemical intervention. When applied to a surface and allowed to dry, a 4-6 nm crystalline-like layer of silica dioxide bonds covalently to the surface. The crystalline-like structures making up the “new” surface are invisible to the naked eye but can be observed via a high-powered electronic microscope. Once silica dioxide is applied to a surface, the crystalline-like structures contain spikes that penetrate the outer membranes and protein coats of microorganisms, rendering them dead in the case of bacteria and fungi or inactive in the case of viruses.