EA034210B1 - Use of microgels of polysaccharides modified with hydrophobic groupings as a base or additive for detergents and detergent compositions using same (variants) - Google Patents

Abstract

The claimed invention relates to chemical industry, namely to compositions and additives for detergents intended for domestic, professional and personal use in the household and industry. The essence of the claimed invention is the use of microgels of polysaccharides modified with hydrophobic groupings as a base or additive for various detergents, and also includes compositions of neutral, acidic and alkaline detergents with the addition of microgels of polysaccharides modified with hydrophobic groupings. The technical result of the invention is ensuring possibility of reducing the amount of surfactants in the detergent composition while maintaining their detergency and thereby increasing the environmental friendliness and safety of detergents for the end user.

Description

The invention relates to the chemical industry, in particular to compositions and additives for detergents intended for domestic, professional and personal use in the household and industry.

The consumer properties of detergents depend not only on the washing ability, but also on properties that do not directly affect it, such as dermatological safety, viscosity and the ability to foam. High viscosity is a must for dishwashing detergents, sanitary gels, hard surface cleaners, personal care products, shampoos, etc. It allows you to reduce the consumption of detergents, apply them more evenly on the surface and hold them there for a long time. Therefore, detergents thicken using various methods.

One such method is the addition of polymeric substances, for example carboxymethyl cellulose, polyvinylpyrrolidone, xanthan gum or guar gum. The disadvantage of this approach is that the polymers do not have surface activity and serve as an additional ingredient in the mixture, without performing the main function of a detergent.

The second method is to use large concentrations of surfactants or to select surfactants that easily form liquid crystalline phases. In this case, the surfactant itself serves as a thickener, however, the detergent contains either an excess of surfactants or surfactants with a high cost.

The third, most common way to increase viscosity is to add salts, usually sodium chloride. Surfactants are salted out of solution, forming viscous liquid crystalline phases.

The disadvantage of this method is the decrease in the dermatological safety of the detergent and the decrease in its washing ability.

The ability to foam practically does not affect the washing ability of the detergent, but allows you to visually monitor its consumption. Foaming is usually regulated by the correct selection of a combination of surfactants or the inclusion of polymer additives in the composition. All this negatively affects the total consumption of surface-active substances, since some of them are spent on the formation of foam.

Known cleaning composition containing polysaccharides, and from 5 to 95% of the polysaccharides are water-soluble, unsubstituted hemicellulose [EP2336283A1, C11D3 / 00, C11D3 / 22, publication date 06/22/2011].

Known cleaning composition containing washing powder and polysaccharide particles having an average size of from 1 to 100 μm [US2016230124, C11D17 / 043, C11D17 / 06, C11D3 / 222, C11D3 / 225, publication date 08/11/2016].

As a prototype, a detergent containing one or more surfactants and a component in the form of a dry polysaccharide having a particle size of less than 100 nm was selected [US7842658, IPC: A61K8 / 73, C11D1 / 00, C11D3 / 22, publication date 11/30/2010].

The disadvantage of the prototype is the inability to significantly reduce the amount of surfactants in the detergent composition due to the use of hydrophilic polymers in the form of a fine powder, which act as an antiresorption agent. Such particles do not have surface activity and serve as an additional ingredient in the mixture, without performing the main function of a detergent.

The technical problem to be solved by the claimed group of inventions is to increase the environmental friendliness and safety of detergents for the end user.

The technical result achieved by the claimed group of inventions is the ability to reduce the amount of surface-active substances in the composition of detergents while maintaining their washing ability.

The specified technical result is achieved through the use of microgels of polysaccharides modified with hydrophobic groups as a base or additive for detergents.

A detergent based on an organic polymer, unlike the prototype, as an organic polymer contains microgels of polysaccharides modified with hydrophobic groups, while the ratio of components is, wt.%:

Microgels of polysaccharides 0.1-3

Water rest

A neutral detergent contains water, surfactants and an organic polymer, unlike the prototype, as an organic polymer it contains microgels of polysaccharides modified with hydrophobic groups, while the ratio of components is, wt.%:

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Surfactants 0.1-15

Microgels of polysaccharides 0.1-3

Water rest

An acidic detergent contains water, surfactants, acid and an organic polymer, unlike the prototype, as an organic polymer it contains microgels of polysaccharides modified with hydrophobic groups, the ratio of components being, wt.%:

Surfactants 0.1-15

Acids 0.1-50

Microgels of polysaccharides 0.1-3

Water rest

Alkaline detergent contains water, surfactants, alkalis and an organic polymer, unlike the prototype, as an organic polymer it contains microgels of polysaccharides modified with hydrophobic groups, while the ratio of components is, wt.%:

Surfactants 0.1-15

Alkalis 0.1-50

Microgels of polysaccharides 0.1-3

Water rest

Microgels are branched polymer colloidal particles with a diameter of 0.1-1 μm, which can swell strongly in solvents due to electrostatic or steric repulsion between charged groups. They are formed as a result of directed polymerization of monomers or pH-initiated neutralization of solutions of synthetic or natural polymers bearing carboxyl or amino groups.

Colloidal solutions of natural polysaccharides with particle sizes from 0.1 to 1 μm can be classified as polysaccharide microgels, while the particles are gel with a water content of 90-99%, for example, low-substituted (<40%) carboxymethyl cellulose and its salts with aliphatic amines ( butylamine, benzylamine, ethylenediamine, hexamethylenediamine), chitosan with a degree of deacetylation of 90-97% and its salts with organic acids, pectin substances with a residual amount of methoxy groups <25% and their salts with aliphatic amines (butylamine, benzylamine, ethyl ndiamine, hexamethylenediamine), modified starch and other substances with the properties of forming stable submicron size gels.

To obtain more stable polysaccharide microgels, chemical crosslinking of the polysaccharide polymer chains using anhydrides and activated esters of dicarboxylic acids, diisocyanides, diisocyanates and other crosslinking agents, as well as the polysaccharide microgels used in this group of inventions, can be obtained by physical association.

Hydrophobic groups that modify polysaccharides can be represented by unbranched alkyl groups with a chain length of C6-C18. The raw materials for unbranched alkyl groups with a chain length of C6-C18 can be fatty acids of natural oils, such as coconut, soy, sunflower, rapeseed and others. Microgels of polysaccharides modified with unbranched alkyl groups with a chain length of C6-C18 are easily oxidized, therefore, are the safest for humans and the environment. However, to achieve the claimed technical result, other hydrophobic groups can be used, for example, branched alkyl substituents, aryl substituents, amino acid residues having two aliphatic substituents, etc.

Polysaccharide microgels can advantageously have a degree of substitution of 5 to 50%. With a degree of substitution of less than 5%, polysaccharide microgels may exhibit low surface activity. With a degree of substitution of more than 50%, they may lose solubility in water and, with a low degree of probability, may be included in detergents.

Microgels of polysaccharides modified with hydrophobic groups can be included in neutral, acid or alkaline detergents in combination with various surfactants, in addition, they can act as a detergent base, exhibiting surface activity. In the case of combining microgels of polysaccharides modified with hydrophobic groups with surfactants, their choice can be based on the composition of the surfactant. Microgels having a positive surface charge can be combined with cationic surfactants, and microgels having a negative surface charge with anionic and nonionic surfactants. Microgels of polysaccharides containing carboxy groups based on carboxymethyl cellulose, starch and pectin can be used, for example, in combination with anionic and nonionic surfactants under neutral and acidic conditions. At the same time, microgels of chitosan-based polysaccharides with amino groups can be combined with cationic surfactants and alkaline conditions. In general, the rules for combining components in detergents are explained by the possibility of the appearance of a negative effect, which consists in the formation of insoluble precipitates when components that carry opposite charges are mixed.

The total concentration of microgels of polysaccharides modified with hydrophobic groups, calculated on dry weight, can be in the range from 0.1 to 3%, due to the fact that at lower concentrations very weak surface activity is observed, and at higher concentrations the microgel can take up the amount of detergent, as a result of which the viscosity of the detergent may be unacceptably high.

Surfactants may include various types of surfactants, including anionic, nonionic, cationic and amphoteric. As anionic surfactants, for example, sodium lauryl sulfate, sodium laureth sulfate, alkyl sulfonic acid and its salts, fatty acid salts can be used, non-ionic glycosides, coconut oil diethanolamide or ethoxylated fatty alcohols, cationic quaternary ammonium salts of fatty acids , betaines of fatty acids, acylcholines, as well as other known surfactants. The total concentration of surfactants in the detergent may range from 0 to 15%. The minimum concentration limit of surfactants is due to the fact that polysaccharide microgels modified with hydrophobic groups (at concentrations above 2%) can act as surfactants. Moreover, the maximum concentration limit of surfactants is due to the fact that their large concentrations are unsafe and are used only in the production of solid detergents or concentrates.

Acids can be represented by organic and / or inorganic acids, for example, acetic, orthophosphoric, sulfamic or citric acid, as well as other acids.

Alkalis can be represented by organic and / or inorganic bases, for example caustic soda, aliphatic amines, caustic soda, as well as other known alkalis.

The total concentration of acids and alkalis in detergents can be any and, as a rule, is in the range from 0.1 to 50%, the specified range of concentrations is due to the need to ensure the desired concentration of acid or alkali, or pH when diluting the detergent with water.

Detergents may contain various auxiliary components, in particular hydrotropic substances (urea, betaines, salts of benzoic, salicylic, phthalic, oxalic or sulfanilic acids, toluenesulfonic acids, etc.), organic solvents (ethanol, methoxyethanol, methoxypropanol), preservatives (methylisothiazole , sorbic acids, alkyl parabens), thickeners (xanthan and guar gums, carboxymethyl cellulose), complexing agents (sodium gluconate, polysilicates, salts of polyphosphoric acids), dyes and ar matizatory have been approved for use in the food and cosmetic industries.

The claimed group of inventions is characterized by new previously unknown from the prior art features, consisting in the use of microgels of polysaccharides modified with hydrophobic groups, as a base or additive for detergents. Due to the presence of hydrophobic groups, polysaccharide microgels have the ability to reduce the surface tension of water, as a result of which they can stabilize the air-water interface, contributing to the formation of stable foam. In addition, the use of microgels of polysaccharides modified with hydrophobic groups in detergent compositions can sharply increase the viscosity of detergents due to the formation of network-like structures in solutions. Thus, the microgels of polysaccharides modified with hydrophobic groups can serve as substitutes for traditional surfactants, which allows to achieve the claimed technical result, which consists in ensuring the possibility of reducing the amount of surfactants in detergents while maintaining their washing ability, and since the polysaccharide microgels modified with hydrophobic groups are safe for the environment and humans, this leads to an increase in ecology Nosta and safety of detergents for the end user. The previously mentioned properties of microgels of polysaccharides modified with hydrophobic groups are not known from the prior art, and their use as a base or additive for detergents, which increase the foaming and viscosity of a detergent, is not known.

The above indicates that the claimed group of inventions is new and not obvious to a person skilled in the relevant field of technology, therefore, meets the criteria of patentability novelty and inventive step.

The claimed group of inventions can be made of known materials using known means, which indicates the compliance of the claimed group of inventions with the patentability criterion of industrial applicability.

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The claimed group of inventions was tested in laboratory conditions, the results of the experiments are shown in the summary table, as well as in the description of examples of detergents, the composition of which included microgels of polysaccharides modified with hydrophobic groups.

To obtain objective data on the technical result achieved in the experiments, the compositions were based on known detergents that did not contain polysaccharide microgels with a certain washing ability, then similar detergents with a reduced amount of surface-active substances containing polysaccharide microgels modified with hydrophobic groups were developed, so that they have the same washing ability.

Determination of the washing ability of detergents included the preparation of a model contamination, which is a mixture of fats and solid particles of various nature, the application of this contamination to the surface, the treatment of a contaminated surface with a 0.2% detergent solution under standard conditions, the determination of residual contamination by washing with organic solvents from the surface.

The process of preparation of polysaccharide microgels involves the preliminary modification of the starting polysaccharides by hydrolysis, carboxymethylation, alkylation, acylation, ammonolysis, hydrazinolysis, interaction with aliphatic amines, the Ugi reaction, and also (in some cases) chemical crosslinking of polysaccharides by means of diamide reactions dialdehydes, diisocyanates, diisocyanides, genipin and other crosslinking agents. Then, by adding an acid or alkali solution, an optimum pH level is reached at which microgel particles are formed.

Modification of polysaccharides by hydrophobic groups is carried out using reactions such as alkylation, acylation, reductive amination and the Ugi reaction. Alkylation undergoes hydroxyl groups contained, for example, in carboxymethyl cellulose, modified starch, pectin and chitosan. For the acylation reaction, the carboxyl groups of carboxymethyl cellulose, carboxymethylated starch and pectin are used, as well as the amino group of chitosan. For reductive amination, chitosan amino groups are used. The Ugi reaction can be carried out with the participation of polysaccharides having both a carboxyl group and an amino group. All of the above reactions are carried out in water-alcohol mixtures using standard reagents described in the literature as suitable for these transformations.

The process of preparing detergents in general includes the preliminary preparation of a solution of surfactants in deionized water, the preliminary preparation of a suspension of polysaccharide microgels modified with hydrophobic groups, their mixing with vigorous stirring, and the subsequent addition of acids, alkalis, preservatives, hydrotropic substances to the resulting mixture , complexing agents and other auxiliary components.

The claimed group of inventions is illustrated by the following examples of implementation.

Example 1. Gel for washing dishes and cutlery, composition 1 (pH neutral).

Microgel based on carboxymethyl cellulose (CMC) modified with C8 aliphatic substituents, degree of substitution - 15.0%, concentration - 1.0% on dry weight, sodium sulfoethoxylate (based on coconut oil) - 3.8%, diethanolamide (based on coconut oil) - 1.7%, hydrotropic substance - 4.0%, preservative - 0.1%. The addition of microgel allowed to reduce the content of the sum of anionic and nonionic surfactants from 10.0 to 5.5% and to exclude table salt from the composition without reducing the washing ability.

Example 2. Gel for washing dishes and cutlery, composition 2 (pH neutral).

Microgel based on pectin modified with aliphatic substituents based on C8-C16 coconut oil, degree of substitution - 25.0%, concentration - 0.5% on dry weight, sodium sulfoethoxylate (based on coconut oil) - 5.1%, diethanolamide ( based on coconut oil) - 2.0%, hydrotropic substance - 4.0%, preservative - 0.1%. The addition of microgel allowed to reduce the content of the sum of anionic and nonionic surfactants from 10.0 to 7.1% and to exclude table salt from the composition without reducing the washing ability.

3. Hypoallergenic liquid soap (pH neutral).

Microgel based on starch modified with aliphatic substituents based on C8-C16 coconut oil, degree of substitution - 50.0%, concentration - 2.0% on dry weight, sodium alkyl benzosulfate - 1.2%, diethanolamide (based on coconut oil) - 1.8%, glycerol - 2.0%, hydrotropic substance - 4.0%, preservative - 0.1%. The addition of a microgel made it possible to reduce the content of the sum of anionic and nonionic surfactants from 10.0 to 3.0% without deterioration.

4. Professional detergent for ceramic tiles (pH slightly acidic).

Microgel based on carboxymethyl cellulose (CMC) modified with C8 aliphatic substituents, degree of substitution - 20.0%, concentration - 0.3% on dry weight, acetic acid 12.0%, elotant CSAE120 (APG 8-10) - 4.2 %, diethanolamide (based on coconut oil) - 1.1%, canned - 034210 guy - 0.1%. The addition of a microgel made it possible to reduce the content of the sum of anionic and nonionic surfactants from 10.0 to 5.3% without deterioration.

5. Alkaline detergent for cleaning stoves, composition 1 (pH strongly alkaline).

A microgel based on chitosan modified with C12 aliphatic substituents, degree of substitution - 10.0%, concentration - 0.1% on dry weight, caustic soda - 15.0%, elotant Milcoside100 (APG 8-10) - 1.0%, complexing agent - 0.2%. The addition of a microgel made it possible to reduce the content of the sum of anionic and nonionic surfactants from 5.0 to 1.0% and to exclude the thickener from the composition without reducing the washing ability.

6. Alkaline detergent for cleaning stoves, composition 2 (pH strongly alkaline).

Microgel based on pectin modified with C8 aliphatic substituents, degree of substitution - 15.0%, concentration - 0.8% on dry weight, caustic soda - 15.0%, elotant Milcoside100 (APG 8-10) - 1.2%, complexing agent - 0.2%. The addition of a microgel made it possible to reduce the content of the sum of anionic and nonionic surfactants from 5.0 to 1.2% and to exclude the thickener from the composition without reducing the washing ability.

7. Gel for washing plumbing, composition 1 (strongly acidic pH).

A microgel based on CMC modified with branched aliphatic substituents based on petroleum products C8-C16, degree of substitution - 30.0%, concentration - 2.0% on dry weight, sulfamic acid - 10.0%, oxalic acid - 10.0% preservative - 0.1%. The addition of a microgel makes it possible to completely eliminate the use of anionic and nonionic surfactants and thickeners without reducing the washing ability.

8. Gel for washing plumbing, composition 2 (strongly acidic pH).

Microgel based on chitosan modified with aryl substituents Ph, degree of substitution - 20.0%, concentration - 1.5% on dry weight, sulfamic acid - 10.0%, oxalic acid 10.0%, preservative - 0.1%. The addition of a microgel makes it possible to completely eliminate the use of anionic and nonionic surfactants and thickeners without reducing the washing ability.

No. Type of polysaccharide Hydrophobic grouping Degree of substitution Microgel concentration Surfactant concentration without the use of microgels Surfactant concentrations using microgels 1 CMC C8 15.0 1,0 10.0 5.5 2 Pectin C8-C16 25.0 0.5 10.0 7.1 3 Starch C8-C16 50,0 2.0 10.0 3.0 4 CMC C8 20,0 0.3 10.0 5.3 5 Chitosan C12 10.0 0.1 10.0 1,0 6 Pectin C8 15.0 0.8 5,0 1,2 7 CMC branched C8-C16 30,0 2.0 3.0 0 8 Chitosan Ph 20,0 1,5 3.0 0

CLAIM

Claims (7)

1. The use of microgels of polysaccharides modified with hydrophobic groups as a base or additive for detergents. 2. The use according to claim 1, characterized in that the polysaccharides are modified with unbranched alkyl groups with a chain length of O6-C18. 3. The use according to claim 1, characterized in that the microgels of polysaccharides modified with hydrophobic moieties have a degree of substitution from 5 to 50%. 4. Detergent based on an organic polymer, characterized in that it contains microgels of polysaccharides modified with hydrophobic groups as an organic polymer, and the ratio of components is, wt.%: Microgels of polysaccharides modified with hydrophobic groups (calculated on dry weight) - 0 , 1-3, water - the rest. 5. A neutral detergent containing water, surfactants and an organic polymer, characterized in that the organic polymer contains microgels of polysaccharides modified with hydrophobic groups, the ratio of components being, wt.%: Surfactants - 0, 1-15, microgels of polysaccharides modified with hydrophobic groups (calculated on dry weight) - 0.1-3, water - the rest. 6. An acidic detergent containing water, surfactants, acids and an organic polymer, characterized in that the organic polymer contains microgels of polysaccharides modified with hydrophobic groups, the ratio of components being, wt.%: Surfactants - 0.1-15, acids - 0.1-50, microgels of polysaccharides modified with hydrophobic groups (calculated on dry weight) - 0.1-3, water - the rest. 7. Alkaline detergent containing water, surfactants, alkalis and an organic polymer, characterized in that the organic polymer contains microgels of polysaccharides modified with hydrophobic groups, the ratio of components being, wt.%: Surfactants - 0.1-15, alkali - 0.1-50, microgels of polysaccharides,