Cleaning compositions for solid surfaces – auxiliary compositions – Cleaning compositions or processes of preparing – Specific organic component
Reexamination Certificate
2001-06-01
2003-12-09
Delcotto, Gregory (Department: 1751)
Cleaning compositions for solid surfaces, auxiliary compositions
Cleaning compositions or processes of preparing
Specific organic component
C510S402000
Reexamination Certificate
active
06660712
ABSTRACT:
FIELD OF THE INVENTION
The invention relates to stabilized amido acid compositions. More particularly, the invention relates to compositions of amido acids, such as 6-nonanoylamidohexanoic acid, stabilized with antioxidants. The stabilized amido acid compositions are useful in the manufacture of bleach activators such as sodium nonanamidohexanoyloxybenzenesulfonate. Stablization of the amido acid protects chemical degradation. Additionally, bleach activators made from the stabilized amido acids of the invention possess improved color.
BACKGROUND
Hypochlorite and hydrogen peroxide are well known for their bleaching properties. As a bleaching agent in laundry detergents, hydrogen peroxide has the advantage of being safe to use with many fabric dyes. However, hydrogen peroxide bleaches are not effective at temperatures below 50° C. This limits their use as most laundering is carried out at temperatures below about 40° C. For this reason, various peroxyacids were developed as alternative bleaching agents for use in laundry detergents. The peroxyacids were generally found to be effective bleaching agents at the lower laundering temperatures. Because of their chemical instability and potential safety hazards, however, peroxyacids themselves are generally unsuitable for storage and handling.
Bleach activators were developed to address storage and handling concerns associated with peroxyacids. Bleach activators have the ability to hydrolyze under laundering conditions, effectively producing peroxyacids, even at lower temperatures, e.g. below 40° C. By perhydrolyzing bleach molecules, bleach activators enhance the activity, and thus the cleaning ability, of a laundry detergent. Bleach activators have the further advantage of being stable when stored in solid form at room temperature. These properties permit the use of bleach activators in a wide variety of laundry detergents and other cleaning formulations.
An important class of bleach activators is phenyl ester salts. An effective bleach activator, phenyl ester salts readily react with bleach to form the corresponding peroxyacid. Exemplary phenyl ester salts, which are used as bleach activators, and their preparation are described in U.S. Pat. Nos. 4,634,551; 4,852,989; 5,391,780; 5,393,905; 5,393,901; 5,414,099; 5,466,840; 5,523,434; 5,650,527; and 5,717,118; as well as in published PCT applications WO 94/18159, WO 95/07883, WO 96/16148, and WO 99/09004. These U.S. Patents and published PCT applications are incorporated herein in their entirety.
Bleach activating phenyl ester salts can be prepared in various ways. For example, sodium nonanamido-hexanoyloxybenzenesulfonate can be prepared by reacting a Cg fatty acid, and caprolactam to form 6-nonanoylamidohexanoic acid. Sodium p-hydroxy-benzenesulfonate and acetic anhydride are then reacted with the nonanoylamidohexanoic acid (an amido acid) in a solvent to form sodium nonanamidohexanoyloxybenzenesulfonate. This reaction mechanism is shown below in equations 1A and 1B.
The major difficulty with such a reaction is the formation of unwanted colored by-products. As such, the final product can possess a commercially undesirable non-white appearance. The formation of these non-white, colored by-products are believed to be due in large part to the oxidation of the amido acid intermediate formed during the process. Such an oxidation process may be similar to the oxidation of N-alkylamides, as described by Sager: M. V. Lock and B. F. Sager, J. Chem. Soc. (B), (1966), 690, B. F. Sager, J. Chem. Soc. (B), (1967), 428, and B. F. Sager, J. Chem. Soc. (B), (1967), 1047. Oxidation of the amido acid intermediate causes the formation of unwanted color as well as chemical degradation of the amido acid—both of which are undesirable.
The removal of unwanted colored by-products from the commercial phenyl ester salts is difficult and expensive. Indeed, current techniques for removing color from phenyl ester salts, such as sodium nonanamidohexanoyloxybenzenesulfonate, either fail to produce a colorless, commercially desirable, white product or require undue time and/or expense. For example, one technique used in forming amido acid phenyl esters involves sparging an inert gas through the amido acid reaction system. See, for example, U.S. Pat. No. 5,414,099. Another technique which has been described involves admixing a water-based purification system with an amido acid phenyl ester sulfonate reaction product to form a purification system and separating the purified phenyl ester salt from the purification system such that a percentage of the color forming impurities are removed. See, for example, published PCT Application WO 99/09004.
Accordingly, there is a need in the art for a simple, cost-effective means of forming precluding or lessening the formation of colored by-products during the synthesis of phenyl ester salts.
SUMMARY OF THE INVENTION
The invention answers the problems connected with forming substantially discoloration-free phenyl ester salts, which may be used as bleach activators. More particularly, commercially acceptable amido acids for use in the formation of bleach activating phenyl ester salts generally appear white and do not contain discolored amido acid by-products. By employing white amido acid products in the preparation of phenyl ester salts, a commercially acceptable phenyl ester salt can be prepared.
The invention aids in the prevention of discoloration and chemical degradation by providing stabilized liquid amido acid compositions. More specifically, the invention provides a stabilized liquid amido acid composition which contain at least one amido acid and an antioxidant. Additionally, the invention relates to processes of making a stabilized amido acid composition as well as processes for preparing an amido phenyl ester salt from an antioxidant stabilized amido acid.
DETAILED DESCRIPTION
According to the invention, amido acids can be stabilized to prevent or reduce their discoloration and chemical degradation. These stabilized amido acids are useful in the preparation of bleach activating, phenyl ester salts by processes known in the art. Simply put, the invention combines an antioxidant with an amido acid, typically a amido-carboxylic acid to form a stabilized amido acid. These stabilized amido acids may be used in the preparation of bleach activating amido phenyl ester salts which may be used in laundry detergents, fabric softeners, hard surface cleaners and other bleach-containing cleaning compositions.
Generally, discolored amido acid by-products and chemical degradation result from the absorption of oxygen by an amido acid product. The amido acid is particularly susceptible as a melt or in solution. To avoid the absorption of oxygen into a liquid amido acid product, an effective stabilizing amount of an antioxidant is added to an amido acid product. The presence of the antioxidant prevents or reduces the absorption of the oxygen such that the product does not become visibly discolored, e.g., a yellow or brownish coloration, or does not chemically degrade.
Amido Acids
The amido acids that can be stabilized through the use of the invention include amido-carboxylic acids. Exemplary amido-carboxylic acids include those represented by formulas I and II:
where R
1
is selected from C
1
-C
22
alkyl, C
2
-C
22
alkenyl, C
2
-C
22
alkynyl, C
3
-C
22
cycloalkyl, and C
6
-C
14
aryl; R
2
and R
5
are each independently selected from hydrogen, C
1
-C
22
alkyl, C
2
-C
22
alkenyl, C
2
-C
22
alkynyl, C
3
-C
22
cycloalkyl, C
6
-C
14
aryl, and where in formula II, R
2
and R
5
can together with the nitrogen carrying them form a C
3
-C
10
heterocycle; R
3
and R
4
are each independently selected from hydrogen, C
1
-C
10
alkyl, C
2
-C
10
alkenyl, C
2
-C
10
alkynyl, C
3
-C
10
cycloalkyl, C
6
-C
10
aryl and where R
3
and R
4
may together with the carbon carrying them form a C
3
-C
10
cycloalkyl; and n is an integer from 0 to 20. The phrase “independently selected” means that the various radicals may or may not be the same. This phrase also means that when n is greater than
DuPont Jeffrey Scott
Dykstra Robert Richard
Van Sickle Dale Elbert
Zima George Chester
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