Methods and formulations for controlling parasitic insect infestations, such as human lice infestations, on textiles. In one embodiment, a method includes applying an anti-parasitic formulation to a textile in need of treatment. In one embodiment, an anti-lice formulation includes an effective amount of at least one spinosyn, such as spinosad. In one embodiment, the anti-lice formulation is at least one of an aqueous suspension and an aqueous solution. The anti-lice formulation may also include one or more additional active ingredients and one or more carriers. The anti-lice formulation has parasiticidal activity when applied to a textile. For example, in one embodiment the anti-lice formulation is formulated to produce 100% adulticidal, nymphicidal, and ovicidal activity when applied to a textile in need of treatment.

The present invention relates to an alkoxylated polyethylenimine, for use in textile treatment in textile industry, especially in textile finishing processes.

A graphene thermostatic fabric includes a fibrous tissue and a graphene thermostatic layer. The fibrous tissue has a first tissue surface, a second tissue surface and an interspace between the first tissue surface and the second tissue surface. The graphene thermostatic layer adheres to the first tissue surface, fills a part of the interspace, and includes at least a hydrophobic resin and nano-graphene sheets dispersed in the hydrophobic resin. A thermal conductivity of the graphene thermostatic layer varies with a change of an ambient temperature, and the thermal conductivity of the graphene thermostatic layer perpendicular to the first tissue surface is less than the thermal conductivity of the graphene thermostatic layer parallel to the first tissue surface. A method of manufacturing the graphene thermostatic fabric is further provided.

A graphene thermostatic fabric includes a fibrous tissue and a graphene thermostatic layer. The fibrous tissue has a first tissue surface, a second tissue surface and an interspace between the first tissue surface and the second tissue surface. The graphene thermostatic layer adheres to the first tissue surface, fills a part of the interspace, and includes at least a hydrophobic resin and nano-graphene sheets dispersed in the hydrophobic resin. A thermal conductivity of the graphene thermostatic layer varies with a change of an ambient temperature, and the thermal conductivity of the graphene thermostatic layer perpendicular to the first tissue surface is less than the thermal conductivity of the graphene thermostatic layer parallel to the first tissue surface. A method of manufacturing the graphene thermostatic fabric is further provided.

The present invention relates to the field of liquid solubilizing systems. More specifically, the present invention relates to a ringing gel composition, one that is a self-thickened composition having a viscoelastic behavior and a viscosity comprised between 0.1 and 1000 Pa.Math.s at 20 C. at 0.01 s.sup.1 shear rate. The ringing gel has an aqueous phase, a surfactant system of one or more non-ionic surfactant(s), a linker and an oil phase that includes a hydrophobic active ingredient such as a perfume. Consumer products that contain the ringing gel composition, such as a self-thickened liquid laundry scent booster are also part of the present invention.

Water-soluble unit dose articles that include fibrous elements. First and second articles that differ with regard to compositional and physical features. Processes for making such articles.

The present invention relates to dryer sheets comprising branched polyester polymers and methods of making and using such dryer sheets. Such dryer sheets, can comprise a variety substrate materials and provide the desired level of performance without the technical and economic drawbacks of conventional dryer sheets.

The present invention relates to dryer sheets comprising branched polyester polymers and methods of making and using such dryer sheets. Such dryer sheets, can comprise a variety substrate materials and provide the desired level of performance without the technical and economic drawbacks of conventional dryer sheets.

Methods and formulations for controlling parasitic insect infestations, such as human lice infestations, on textiles. In one embodiment, a method includes applying an anti-parasitic formulation to a textile in need of treatment. In one embodiment, an anti-lice formulation includes an effective amount of at least one spinosyn, such as spinosad. In one embodiment, the anti-lice formulation is at least one of an aqueous suspension and an aqueous solution. The anti-lice formulation may also include one or more additional active ingredients and one or more carriers. The anti-lice formulation has parasiticidal activity when applied to a textile. For example, in one embodiment the anti-lice formulation is formulated to produce 100% adulticidal, nymphicidal, and ovicidal activity when applied to a textile in need of treatment.

A processing method of a base material sheet includes winding out the base material sheet wound up by a first core and a first porous sheet wound up by a second core, winding up by a third core the base material sheet and the first porous sheet to be overlapped with each other, and processing the base material sheet by a first processing liquid held in the first porous sheet; and winding out the base material sheet and the first porous sheet overlappingly wound up by the third core, winding up the first porous sheet by the second core, and winding up the base material sheet by the first core.