Methods relating to making product compositions that include encapsulates, borate compounds, and a cationic polysaccharide, where the encapsulates include polyvinyl alcohol polymer. Compositions made from such methods. Encapsulate slurries.

Process for making a particulate coated chelating agent (A) wherein said process comprises the following steps: (a) Providing a granule or powder containing an alkali metal salt of methyl glycine diacetic acid (MGDA) or glutamic acid diacetic acid (GLDA), preferably with a moisture content in the range of from 1 to 15% by weight, (b) treating said salt with a metal alkoxide or metal halide or metal amide or alkyl metal compound or with an alkoxide, amide, halide or alkyl compound of silicon, (c) treating the material obtained in step (b) with moisture or (c*) with ozone, (d) optionally, repeating the sequence of steps (b) and (c) once to 25 times.

The present disclosure relates to a cleaning agent composition for a substrate for a semiconductor device and a method for cleaning a substrate for a semiconductor device using the same. The cleaning agent composition contains a silicon-based compound represented by Formula 1 and an aprotic organic solvent with a dielectric constant of 10 or less, which can form a surface protective film capable of preventing collapse of the pattern even in a wet cleaning process of fine patterns with high aspect ratios, thereby providing a method for manufacturing a semiconductor device with an improved semiconductor manufacturing yield.

The present disclosure relates to an automatic dishwasher detergent which comprises metal complex of formula M.sup.n+L(A.sup.m?).sub.n/m, wherein M is a metal cation, A is an arbitrary anion, n and m are integers selected from 1 to 6, and L is a neutral ligand of formula (II), wherein each X is as defined herein, and which exhibits improved cleaning performance in the removal of burnt-on soiling, to the use of this dishwasher detergent, and to a method for automatically washing dishes using this dishwasher detergent.

Disclose herein is a composition comprising a hydrocarbon solvent; an aromatic solvent; a methylated siloxane; and a surfactant. Also disclosed is a method of preparing an emulsion for cleaning purposes comprising mixing a solution at a rate of greater than 500 rpm for at least two hours, wherein the solution comprises a hydrocarbon solvent, an aromatic solvent, a methylated siloxane, and a surfactant. In addition, disclosed herein is a method of cleaning rollers, plates, or blankets of a printing machine with a cleaning mixture, the method comprising contacting the rollers or blankets with the cleaning mixture, wherein the cleaning mixture comprises a hydrocarbon solvent, an aromatic solvent, a methylated siloxane, and a surfactant.

The present invention comprises a hard surface cleaning and treatment composition with a synergistic combination of mild surfactants that makes the composition particularly suited for leather, synthetic leather, vinyl and stainless steel. The composition is gentle and non-damaging to leather and synthetic leather, and leaves no sticky residue. The composition can clean food soils such as mustard, ketchup, shortening and grease and requires no personal protective equipment when being used. In addition, a method of preserving a leather surface or article by contacting said surface with said substrate is disclosed as well as specific methods associated with making the composition to form a stable water in oil emulsion.

A washing or cleaning agent that has MOFs (metal organic frameworks) in order to reduce offensive odor, a method for reducing malodors, and the use of MOFs to reduce malodors.

A consumer product composition comprises a non-porous dissolvable solid structure comprising a carrier material, and hydrophobic conditioning agent and particulate spacer material disposed within the carrier material, wherein the hydrophobic conditioning agent has a mean particle size of from about 1 m to about 500 m and the particulate spacer material has a mean particle size of from about 55 m to about 750 m.

The invention provides a concentrated detergent composition comprising alkali metal carbonate, alkali metal percarbonate, and a peroxidation catalyst according to formula (I) [(L.sub.pM.sub.q).sub.nX.sub.r]Y.sub.s, wherein each L independently is an organic ligand containing at least three nitrogen atoms that coordinate with the metal M; M is Mn or Fe; each X independently is a coordinating or bridging group selected from the group consisting of H.sub.2O, OH.sup., SH.sup., HO.sub.2.sup., O.sup.2, O.sub.2.sup.2, S.sup.2, F.sup., Cl.sup., Br.sup., I.sup., NO.sub.3.sup., NO.sub.2.sup., SO.sub.4.sup.2, SO.sub.3.sup.2, PO.sub.4.sup.3, N.sub.3.sup., CN.sup., NR.sub.3, NCS.sup., RCN, RS.sup., RCO.sub.2.sup., RO.sup., and

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with R being hydrogen or a C.sub.1 to C.sub.6 alkyl group; p is an integer from 1 to 4; q is an integer from 1 to 2; r is an integer from 0 to 6; Y is a counter ion; and s is the number of counter ions. The invention also relates to the use of said concentrated detergent composition as a warewashing detergent for the removal of starch soil.

In a method of cleaning a substrate, a solution including a size-modification material is applied on a substrate, on which particles to be removed are disposed. Size-modified particles having larger size than the particles are generated, from the particles and the size-modification material. The size-modified particles are removed from the substrate.