The present disclosure relates to rheology modified, low foaming aqueous antimicrobial compositions. The compositions are phase stable under acidic conditions, and do not need to be rinsed from the surface to which they are applied. The present disclosure further relates to methods of use thereof.

The present disclosure relates to cleaning compositions that are used to clean semiconductor substrates. These cleaning compositions can remove the defects/contaminants arising from previous processing on the semiconductor substrates and thereby make the substrates appropriate for further processing. The cleaning compositions described herein primarily contain at least one pH adjusting agent and at least one biosurfactant.

Hard surface rinse aid compositions incorporating surfactant systems compatible with plastics and plastics containing metals, such as aluminum, are disclosed. The hard surface rinse aid compositions are particularly well suited for use in high concentrations at low temperatures without causing foaming and/or debris or film on the treated surface. In particular, the plastic and aluminum-compatible hard surface rinse aid compositions containing a surfactant system combining nonionic alcohol alkoxylates and a polymer surfactant can be used in treating hard surfaces requiring good sheeting, wetting and drying properties. The methods are particularly well suited for rinsing automotive parts, including those needing painting.

Described herein is a process for manufacturing ethoxylated polyethylene-imines. Also described herein are the ethoxylated polyethyleneimines and methods for using the ethoxylated polyethyleneimines.

Antimicrobial or non-antimicrobial compositions, sanitizing compositions and other compositions combining use of a propoxylated EO/PO block copolymer surfactant and/or propoxylated polymer in combination with at least one additional anionic and/or nonionic surfactant to provide concentrated compositions having a desired viscoelasticity at an active level of at least 18% are disclosed. Non-antimicrobial applications combining use of a propoxylated surfactant and/or propoxylated polymer in combination with at least one additional anionic and/or nonionic surfactant to provide compositions having a desired viscoelasticity are also disclosed. Methods of using concentrated and use compositions having desired foaming enhancement and stabilization are also disclosed.

An improved cleaning composition in block form is described. The composition addresses the consumer issues of having a clear product that remains clear through the life of the product and also has favorable handling properties such as a high melting point and increased hardness. The improvements are the result of three essential ingredients of particular block copolymer nonionic surfactants, alkanecarboxylic salts, and particular solvents at restricted proportions in the overall composition that are molded into a cleaning composition in block form that exhibits a high melting point, hardness and high optical transmittance.

A composition comprising a plurality of particles, wherein said particles comprise: a) 10 to 60 w.t. % polyethylene glycol, wherein the polyethylene glycol has a weight average molecular weight from 4000 to 12000; b) 0.1 to 50 w.t. % polysaccharide; c) 0.1 to 50 w.t. % ethoxylated non-ionic surfactant having a general formula: R.sub.1O(R.sub.2O)xH R.sub.1=a saturated fatty alcohol or polypropylene glycol. R.sub.2=C.sub.2H.sub.4 or mixture of C.sub.2H.sub.4 and C.sub.3H.sub.6x=8 to 120 and having a melting point between 40 and 60° C.; and d) 0.1 to 30 w.t. % perfume materials.

The invention relates to the preparation and development of a method for a process for preparing a Poly Methylamine surfactant. The process consists of a mixture of methanol and ethanolamine in a molar ratio ranging from 1.0-0.6 to 3.0-0.4 at a temperature of 45-50° C., resulting in a non-hazardous substance, without toxic effects for human health, at the same time having high-quality cleaning, high- and very low temperature resistance, with surface active agent (surfactant) properties. Used as a fuel additive, reduces harmful exhaust gas emissions to the atmosphere, raises the octane number in gasoline, prevents the formation of ice crystals in diesel fuel.

The present disclosure relates to detergent compositions effective for soil removal, particularly for the removal of starch soils. The compositions described herein may be used to remove soil from a surface including both hard and soft surfaces, most preferably on ware. Preferably, the detergent compositions comprise a detergent, a bleach, and an enzyme. Methods of making and using the detergent compositions for the removal of starch are also described herein.

The present disclosure relates to cleaning compositions that can be used to clean semiconductor substrates. These cleaning compositions can be used to remove defects arising from previous processing steps on these semiconductor substrates. These cleaning compositions can remove the defects/contaminants from the semiconductor substrates and thereby make the substrates appropriate for further processing. The cleaning compositions described herein primarily contain at least one organic acid and at least one anionic polymer.