A low-water composition comprising a solid dissolvable composition domain having a crystallizing agent and a PEGC domain.

Described herein, a transparent soap bar for cleaning the skin including a soap surfactant, a synthetic surfactant, a fragrance component, an amine component, an antioxidant salt, wherein the transparent soap bar has a percent transmittance (% T) value of greater than 40% as measured using the method of Measurement of % Transmittance.

A solid dissolvable composition comprising a crystallizing agent, water, and a freshness benefit agent.

A solid dissolvable composition comprising a crystallizing agent, water, and a freshness benefit agent.

A low-water composition comprising a solid dissolvable composition domain having a crystallizing agent and a PEGC domain.

Provided herein are antimicrobial compositions comprising derivatives of lauric acid, and methods for preparing and using such compositions. As a non-limiting example, a process for preparing an antimicrobial composition may comprise: (1) a saponification step wherein a high-lauric vegetable oil is contacted with a strong base, thereby providing a high-laurate soap component; (2) a lipolysis step wherein a high-lauric vegetable oil is contacted with a lipase, thereby providing a lipolyzed oil composition comprising glycerol monolaurate; and (3) a combination step wherein the soap composition is combined with the lipolyzed oil composition, thereby providing the antimicrobial foaming soap composition.

Methods for making soap powder of the current invention using a double boiler system in which the direct heating and boiling of the mixture was avoided. A method for making soap powder of the current invention at room temperature. The soap powders of the current invention of a preferred starting composition of 49 g sodium hydroxide, 250 ml vegetable oil, and 220 g water.

Methods for making soap powder of the current invention using a double boiler system in which the direct heating and boiling of the mixture was avoided. A method for making soap powder of the current invention at room temperature. The soap powders of the current invention of a preferred starting composition of 49 g sodium hydroxide, 250 ml vegetable oil, and 220 g water.

The present invention relates to predominantly (50% or greater) soap bars made from oil or oils of defined iodine value. Unexpectedly, it has been found that, when defined amounts of potassium soap are used, bars made from oils falling within the defined IV range have excellent extrusion rates (as defined by falling within defined hardness values) without exhibiting excessive cracking, while exhibiting wear and mush values associated with lower IV and surprising lather values not expected from bars made from lower IV oils. This is a unique and unexpected simultaneous accumulation of attributes. Further, unexpected perfume performance (e.g., bloom) is also found.

The present invention relates to predominantly (50% or greater) soap bars made from oil or oils of defined iodine value. Unexpectedly, it has been found that, when defined amounts of potassium soap are used, bars made from oils falling within the defined IV range have excellent extrusion rates (as defined by falling within defined hardness values) without exhibiting excessive cracking, while exhibiting wear and mush values associated with lower IV and surprising lather values not expected from bars made from lower IV oils. This is a unique and unexpected simultaneous accumulation of attributes. Further, unexpected perfume performance (e.g., bloom) is also found.