The present invention is directed to a cleaning formulation. The formulation is in particular intended to be utilised in a “waterless” context, which means that no additional water (besides any water that may already be contained in the formulation) is necessary in order to achieve cleaning.

The invention provides a removal composition and process for cleaning post-chemical mechanical polishing (CMP) contaminants and ceria particles from a microelectronic device having said particles and contaminants thereon. The composition achieves highly efficacious removal of the ceria particles and CMP by-product contaminant material from the surface of the microelectronic device.

Embodiments provide for an eco-friendly and non-toxic self-preserving liquid laundry detergent composition incorporating a blend of ingredients, at least some of which are multi-functional, thereby promoting both anti-stain and anti-odor functions while also contributing to composition preservation.

An enzymatically produced α-glucan oligomer/polymer compositions is provided. The enzymatically produced α-glucan oligomer/polymers can be derivatized into α-glucan ether compounds. The α-glucan oligomers/polymers and the corresponding α-glucan ethers are cellulose and/or protease resistant, making them suitable for use in fabric care and laundry care applications. Methods for the production and use of the present compositions are also provided.

An enzymatically produced α-glucan oligomer/polymer compositions is provided. The enzymatically produced α-glucan oligomer/polymers can be derivatized into α-glucan ether compounds. The α-glucan oligomers/polymers and the corresponding α-glucan ethers are cellulose and/or protease resistant, making them suitable for use in fabric care and laundry care applications. Methods for the production and use of the present compositions are also provided.

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.

Disclosed is a microcapsule comprising benefit agent and water-insolvable solid particle, wherein the microcapsule has an aspect ratio of from 3:1 to 12:1 and the weight ratio of the particle to the benefit agent is 1:5 to 50:1, where aspect ratio means the ratio of the length to width of the microcapsule as measured by optical microscopy, where length refers to the longest measurable distance of the microcapsule in the optical image and width refers to the longest measurable distance of the microcapsule along the direction perpendicular to the length of the microcapsule in the optical image, and where water-insolvable refers to a material that dissolves in water to give a solution with a concentration of less than 1 gram per litre, wherein, the water-insolvable solid particle comprises a plurality of pores throughout the particles and the benefit is encapsulated inside the pores

Described are co-granules coated with cellulose ether and containing b1) cyclic sulfonimine, b2) bleach activator selected from the group consisting of tetraacetylethylenediamine, decanoyloxybenzoic acid or mixtures thereof, and b3) cellulose ether as binder.

These co-granules can be produced by wet granulation and are very storage-stable.

The co-granules can be used in detergents and cleaning agents, which contain (a) bleaching agent selected from the group consisting of perborate, percarbonate or mixtures thereof, and (b) the co-granules coated with cellulose ether.

These detergents and cleaning agents contain highly active bleach activators and bleach catalysts and are characterized by high storage stability. The combination of components b1) and b2) and peroxygen compound a) leads to a pronounced disinfection effect even at low temperatures.

The detergents and cleaning agents can be used even at low temperatures and show a good washing performance.

Compositions comprising cellulase and at least one poly alpha-1,3-glucan ether compound having a degree of substitution with an organic group of about 0.05-3.0 are disclosed. Such compositions can be dry or aqueous, the latter of which can have a viscosity of at least about 10 cPs. The disclosed composition can be in the form of a personal care product, household product, or industrial product, for example. Also disclosed are a method for preparing an aqueous composition comprising cellulase and a poly alpha-1,3-glucan ether compound, and a method of treating a material such as fabric by contacting it with this aqueous composition.

Formulations, methods using such a formulation, and systems encompassing such formulations and methods for reducing energy and/or water usage in an institutional laundry is provided. Such formulations, methods and systems allow for textiles and fabrics to be effectively washed even at temperatures as low as 20° C. A prewash formulation includes a surfactant enzyme booster with the surfactant enzyme booster having one but preferably more enzymes and one or more surfactants. The enzyme of the prewash formulation may include any one or more of a protease, a lipase, an amylase, a cellulase, a mannanase, a pectinase, a peroxidase, and a gluconase. A main wash formulation is used in a wash phase cycle of an institutional laundry where such a main wash formulation includes a bleach, bleach enhancer, a chelating agent, an anti-redeposition agent and/or a soil suspension agent, a surfactant, preferably a nonionic surfactant and an anionic surfactant, a solvent including an aqueous solvent and perhaps an organic solvent, and a builder. An institutional washing process using the formulations provided here are distinguished by the need to only include one rinse cycle—i.e., a rinse cycle between the prewash cycle and the main wash cycle is generally not needed or, at least, a full rinse cycle between the prewash cycle and the main wash cycle is not needed. The formulations, methods and systems provided reduce energy and water usage in an institutional laundry.