A method for cleaning a substrate includes the following: exposing the substrate to a cleaning agent to remove impurities on a surface of the substrate; exposing the substrate to a dewetting chemical agent in a liquid phase to remove the cleaning agent on the surface of the substrate; solidifying the dewetting chemical agent in the liquid phase remaining on the surface of the substrate to obtain the dewetting chemical agent in a solid phase; and sublimating and removing the dewetting chemical agent in the solid phase.

A vehicle-cleaning system and method of cleaning a vehicle are provided, the system comprises a cleaning agent dispenser configured to administer a cleaning agent to a surface of a vehicle for cleaning, wherein the cleaning agent preferably comprises one or more nanoparticulate metal oxide. In one embodiment, the system comprises a chemical agent dispenser configured to separately administer a chemical agent to the surface of a vehicle to react with said cleaning agent to form a resultant foam. The system further comprises an electromagnetic wave emitting system for providing wavelength in a range of about 200 nm to about 380 nm to activate the nanoparticulate metal oxide.

Lipophilic super-absorbent swelling gels have been developed that will not only absorb the oil and grease from these machine parts, but will also act as an automated sweeper due to the self-generating mechanical force of the gel. An octadecylacrylate-co-ethylene glycol dimethacrylate (ODA-co-EGDMA) tetraalkylammonium tetraphenylborate lipophilic polyelectrolyte gel (EG-18) and poly(stearylacrylate-co-ethylene glycol dimethacrylate) (SA-co-EGDMA) neutral gel (NG-18) were evaluated for swelling and oil sorption capacity. NG-18 and EG-18 gels removed particulate contaminants and absorbed oils and grease on metal and non-metal surfaces without causing abrasion. The gels are also recyclable. The cleaning ability of the gels was compared with the standard solvent cleaner trichloroethylene (TCE) following ASTM G122-96(2008) test methods and MIL-PRF-680B procedure with MIL-PRF-10924 test grease. Polymer gel cleaners exhibited analogous extent and rate of cleaning as the TCE. These recyclable superabsorbent polymer cleaners will allow drastic reduction in the use of VOC containing solvents and HAP release.

A cleaning composition for a semiconductor substrate contains a solvent, and a polymer that includes a fluorine atom, a silicon atom or a combination thereof. The content of water in the solvent is preferably no greater than 20% by mass. The cleaning composition preferably further contains an organic acid which is a non-polymeric acid. The organic acid is preferably a polyhydric carboxylic acid. The acid dissociation constant of the polymer is preferably less than that of the organic acid. The solubility of the organic acid in water at 25° C. is preferably no less than 5% by mass. The organic acid is preferably a solid at 25° C.

The present disclosure relates to compositions and methods of using the compositions for treating a floor surface. The disclosed compositions clean the floor surface, repair damage, or maintain the original look of the floor. The disclosed compositions also do not provide a permanent finish on the floor, are temporary coatings, or do not significantly change the gloss of the floor after application.

Cleaning compositions including one or more non-ionic surfactants; one or more quaternary ammonium compounds; at least one citrus terpene; one or more chelating agent and water, the cleaning compositions useful for cleaning alkaline surfaces such as building gutters.

A foamable, liquid cleaning composition comprising: i. 0.5 to 5 wt. % C.sub.8-18 alkoxylated anoionic surfactant having 1 to 30 moles of alkylene oxide; ii. 5 to 20 wt. % nonionic surfactants; iii. 0.1 to 10 wt. % water miscible glycol ether solvent; iv. 0.1 to 10 wt % water immiscible fatty acid ester solvent selected from the group consisting of methyl laurate, ethyl laurate, ethyl octanoate or mixtures thereof; v. 0.1 to 10 wt % of sequestrant selected from the group consisting of citric, adipic, succinic, maleic, glutaric acids, mixtures thereof or salts thereof; and vi. water, wherein the composition has a viscosity of less than 100 mPa.Math.s at 25° C. and 20 s.sup.−1, wherein ratio of the sum of alkoxylated surfactant (i) and nonionic surfactant (ii) to the solvent is in a weight ratio ranging from 0.93:1 to 20:1, and wherein the pH of the composition ranges from 2.0 to 4.5. A cleaning system comprising a spraying device and a foamable liquid cleaning composition, said spraying device forming a foam with a density of less than 0.4 g/ml when ejected from the spray device through the spray head. A method of removing oily fatty stains from fabric. Use of the composition for the removal of oily fatty stains from fabric, said use comprising applying the liquid cleaning composition in the form of a foam onto the surface of the fabric.

An aqueous fabric spray composition, comprising: a. 1-10 w.t. % silicone, wherein the silicone is in the form of an emulsion b. 0.01-1.5 w.t. % setting polymer.

A simplified method for removing foreign matters formed on a substrate in a semiconductor device manufacturing process; and a composition for forming a coating film for foreign matter removal use, which can be used in the method. A coating film is formed on a semiconductor substrate using a composition preferably containing a polyamic acid produced from (a) a tetracarboxylic dianhydride compound and (b) a diamine compound having at least one carboxyl group or a polyamic acid produced from (a) a tetracarboxylic dianhydride compound, (b) a diamine compound having at least one carboxyl group and (c) a diamine compound, and then foreign matters occurring on the coating film are removed together with the coating film by the treatment with a developing solution.

An automated medical instrument cleaning system is particularly adapted to provide a complete application of wet/dry detergent foam to medical instruments in a point of use cleaning operation for instrument reprocessing, in a consistent and fully adjustable manner. The system comprises a microprocessor, a user interface, and an adjustable wand for the application of foam that covers surface and internal lumens of the instruments to be cleaned, using wand applicators, to quickly and easily coat all external and internal instrument surfaces with detergent foam before the bio burden has a chance to harden.