The present disclosure relates to cleansing compositions that are free of sulfate-based surfactants and free of sodium chloride. The cleansing compositions include: (a) one or more non-sulfate anionic surfactants; one or more amphoteric surfactants; one or more nonionic surfactants; (d) one or more hydrophobically modified poly(meth)acrylates; one or more silicones; and water. The cleansing compositions are particularly useful for cleansing hair and providing conditioning benefits to the hair.

The present disclosure relates to cleansing compositions that are free of sulfate-based surfactants and free of sodium chloride. The cleansing compositions include: (a) one or more non-sulfate anionic surfactants; one or more amphoteric surfactants; one or more nonionic surfactants; (d) one or more hydrophobically modified poly(meth)acrylates; one or more silicones; and water. The cleansing compositions are particularly useful for cleansing hair and providing conditioning benefits to the hair.

A structured liquid detergent composition includes water, an anionic detergent surfactant, and a nonionic detergent surfactant. A ratio of the anionic detergent surfactant to the nonionic detergent surfactant is from about 0.5 to about 20. The structured liquid detergent composition further includes a zwitterionic or amphoteric surfactant and a bacterial-derived cellulose network. The structured liquid detergent composition exhibits improved rheological properties.

A structured liquid detergent composition includes water, an anionic detergent surfactant, and a nonionic detergent surfactant. A ratio of the anionic detergent surfactant to the nonionic detergent surfactant is from about 0.5 to about 20. The structured liquid detergent composition further includes a zwitterionic or amphoteric surfactant and a bacterial-derived cellulose network. The structured liquid detergent composition exhibits improved rheological properties.

Solid laundry softening compositions and applications of use are disclosed. Solid laundry softening compositions combine quaternary ammonium compounds with an inorganic carrier to provide a flowable powder for solidification in a pressed or extruded solid composition. A high loading of quaternary ammonium compound in the inorganic carrier, including an inorganic salt, can be further combined with softening boosters, processing aids, surfactants, and/or additional functional ingredients to provide stable solid compositions.

A detergent comprising (A) at least one selected from the group consisting of (A1) a carbobetaine type ampholytic surfactant and (A2) a nonionic surfactant, and (B) a quaternary ammonium cation-modified silicone. A mass ratio [(A)/(B)] of the component (A) to the component (B) is 0.1 or more and 1,000 or less, and the content of an anionic surfactant is 4% by mass or less.

A method of simultaneously maximizing the mildness and cleaning performance of a liquid dishwashing composition includes the steps of: A. forming the composition that has a pH of greater than about 7 and up to about 11, that comprises sodium laureth sulfate, an amine oxide, and optionally cocamidopropyl betaine, and that is substantially free of sodium lauryl sulfate; and B. subjecting a sample of the composition to a Zein test, a corneosurfametry (CSM) test, and an in vitro cytokine release test for IL-1α response, respectively,

wherein the sample exhibits a Zein score of from about 0.1 to about 2.5, a CSM test value of from about 10 to about 35, and a cytokine release test value of from about 100 to about 600.

A method of simultaneously maximizing the mildness and cleaning performance of a liquid dishwashing composition includes the steps of: A. forming the composition that has a pH of greater than about 7 and up to about 11, that comprises sodium laureth sulfate, an amine oxide, and optionally cocamidopropyl betaine, and that is substantially free of sodium lauryl sulfate; and B. subjecting a sample of the composition to a Zein test, a corneosurfametry (CSM) test, and an in vitro cytokine release test for IL-1α response, respectively,

wherein the sample exhibits a Zein score of from about 0.1 to about 2.5, a CSM test value of from about 10 to about 35, and a cytokine release test value of from about 100 to about 600.

Compositions comprising a neutral surfactant or a reaction product thereof and a reaction product of a saccharide polymer and a fatty acid may be obtained in the presence of water and a hydroxide base (optionally in the presence of the neutral surfactant), the saccharide polymer comprising a dextran, a dextrin compound, or any combination thereof. The reaction product of the saccharide polymer and the fatty acid may be present at a concentration effective to lower surface tension of the neutral surfactant. Depending on the fatty acid identity, among other factors, the compositions may promote emulsification or de-emulsification. In addition, the compositions may promote foam formation under appropriate conditions. Treatment fluids comprising the compositions, including foamed treatment fluids, may be introduced into a subterranean formation to perform a treatment operation in which fluid emulsification or de-emulsification may occur. The reaction products may be incorporated in soaps and other personal care products.

The disclosure relates to hard surface cleaning compositions, methods of making the hard surface cleaning compositions, and methods of using the hard surface cleaning compositions. The hard surface cleaning compositions are enzymatic and near neutral in pH. In particular, the hard surface cleaning compositions have reduced surface tension for cleaning surfaces with low surface free energy. Preferably, the hard surface cleaning compositions have low contact angles on a variety of surfaces. In a preferred embodiment, the hard surface cleaning compositions comprise a biocide.