UA25024U - Metal-containig addition agent for paint-and-lacquer materials - Google Patents

Abstract

A metal-containing biocide addition agent for paint-and-lacquer materials comprises silver, copper nanoparticles or a mixture of silver and copper nanoparticles, agglomerates of silver nanoparticles or agglomerates of copper nanoparticles, or agglomerates, comprising a mixture of silver and copper nanoparticles. Nanoparticles having preferably smaller sizes in agglomerates are located on surfaces of particles having preferably larger sizes.

Description

Description of the invention

The utility model refers to the technology of obtaining paint and varnish materials intended for covering 2 walls, ceilings, concrete, brick, and wooden surfaces in order to reduce the level of microbial contamination of premises in medical institutions, schools, kindergartens, offices, etc.

Various compositions with biocidal properties are known, which are used in construction and other fields of technology, and the composition of which includes various biocidal components. Currently, fungicidal and bactericidal additives are used, most of which are very toxic. Known biocides to protect wood from mold, destructive and 70 staining fungi: sodium pentachlor phenolate, copper sulfate, arsenic, chromium, copper, zinc, caustic sodium. Most of these biocides are highly toxic compounds | see Babkin 0.3., Aristova L.I. /Painting materials!, 1996,

Mo. 12, p. 211.

There are known biocidal additives that use high molecular weight polyhexamethyleneguanidine (PGMG) salts. PGMG preparations meet many requirements for biocides for water-soluble 12 paint and varnish materials. They are sufficiently effective against various microorganisms, low-toxicity for warm-blooded animals, non-volatile, dissolve well in water, have no color and odor, are stable during storage, retain bactericidal properties in the coating | see patent of the Russian Federation 2131897, IPC C0O905/14, 1999; Vointseva I.I,.,

Skorokhodova O.N., Kazanno I.V., Valitsky P.M. Varnish for biocides covered, magazine "Lakokrasochnye material!", Mo3, p. 12, 1999.|.

However, when PGMG salts are introduced into the paint material, the problem of their compatibility with various film formers arises, since these salts dissolve only in water and in lower alcohols, but do not dissolve in organic solvents.

A known metal-containing biocidal additive for paint and varnish materials containing a mixture of zinc pyrite salt and copper oxide or copper thiocyanate. (Russian patent Mo2111993. Composition of paint or base paint, method of increasing the biocidal effectiveness of the composition of paint or base paint. IPCE СО905/14, СО905/16. Published on 05.27.1998).

The main disadvantages of this biocidal additive are the large consumption of the bactericidal component in the composition of 5 to

BOmas.Uo of zinc pyrite salt and from 5 to BbBOmas.9o of copper oxide or copper thiocyanate and insufficiently high preservation of the bactericidal properties of the coating. M

In the last decade, nanosized silver particles have been successfully used as a bactericidal agent, which exhibits pronounced biological (antimicrobial) activity. Silver nanoparticles are obtained in the form of a liquid solution in a limiting hydrocarbon. Such particles, for example, can be obtained based on the method of biochemical synthesis in reverse micelles (KI Patent 2147487, B2219/24, 20.04.2000). oh

It was also established that solutions of silver nanoparticles, when they are introduced into the formulation of paints, give these paints

With high biocidal activity against microorganisms of various species. Thus, when adding a solution of silver nanoparticles in the amount of 0.0001 bms.bo (in terms of Ad ions) to the composition of water-dispersed paint, the level of inactivation of E. soy bacteria 30 minutes and 1 hour after infection of the painted surface significantly exceeds that obtained for paint without nanoparticles or with the addition of 0.5 wt. 90 PGMG.

However, the virulicidal and fungicidal effects observed for the paint with silver nanoparticles, on the contrary, are less than for the paint with PGMG (see "Painting materials and their application", Mo2-3/2001, p.3-7 , table 3Z)|. c The sporicidal activity of paint with silver nanoparticles and paint with PGMG, both in water-dispersion paint and in alkyd enamel, is also low and does not ensure complete inactivation even after 7 days of exposure (see "Painting materials and their application", Mo2-3 /2001, pp. 3-7, tables 1, 3). This is a disadvantage of such compositions.

A known metal-containing biocidal additive for paint and varnish materials, which uses yuyu 395 organic or inorganic compound containing silver, which creates stable complex cations or anions of silver, which has an instability constant that does not exceed 10 7, and is taken in an amount of 1071-1072 mass .o5 based on o silver. (Patent of Russia Mo2215011. Composition with biocidal properties. MPK7 СО905/14. Publ. 2003.10.271. o The disadvantage of this biocidal additive is low fungicidal and sporicidal activity.

Antimicrobial, fungicidal, antioxidant, immunomodulating, anti-inflammatory and other important properties of copper are well known, which are most effectively manifested in the presence of silver. Silver, even in minimal doses,

T" significantly strengthens the properties of copper. This indicates the catalytic properties of silver in relation to copper in biochemical reactions where these metals act as synergists. Their combined effect on microorganisms is much higher than that of silver and copper separately. Copper-silver colloidal solutions have antimicrobial, virucidal and fungicidal effects with minimal manifestation of toxic and allergic properties. Modern scientific research has shown that compositions with silver and copper in a nanodispersed state are much less toxic compared to compositions in which the same metals are in an ionic state obtained by dissolving salts. For example, copper is 7 times less toxic, which has been verified by a large number of experiments conducted by scientists | see Arsentieva I.P.

The use of biologically active preparations based on metal nanoparticles in medicine and agriculture. Report at the meeting: "Nanosystems and materials industry: assessment of the current state and prospects for development". Moscow, Center "Open Economy", Publ. 07.02.2006,

NEr:/Mmlyalmy vit. ги/сиепи/досигипе.азрхи).

The closest to the one claimed is a metal-containing biocidal additive for paint and varnish materials containing nanoparticles of silver, copper or a mixture of nanoparticles of silver and copper with sizes from 2 nm to 200 nm with a content of 65 nanoparticles of metals from 2.5x1079 to 0.2 moles per kg paint material (Patent of Russia Mo2186810. Composition with bactericidal properties. MPK7 СО9О5/14. Publ. 2002.08.101.

The disadvantage of the known biocidal additive for paint and varnish materials is low bactericidal, fungicidal, virulicidal and sporicidal activity, which does not allow to create paint and varnish materials with a given biocidal effect and with high biocidal activity at the interface of the "air - paint and paint material" and "paint and paint material - surface" phases , which is dyed", while it is precisely in these zones that the maximum biocidal activity of paints and varnishes is required.

The basis of the useful model is the task of increasing the bactericidal, fungicidal, virulicidal and sporicidal activity of the biocidal additive at the interface of the phases "air - paint and paint material" and "paint and paint material - the surface to be painted", without increasing its toxicity. 70 The proposed, as well as the known metal-containing biocidal additive for paint materials, contains nanoparticles of silver, copper or a mixture of nanoparticles of silver and copper with sizes from 2 nm to 20 Ohm, according to the utility model, it contains agglomerates of nanoparticles of silver, or agglomerates of nanoparticles of copper, or agglomerates, consisting of a mixture of silver and copper nanoparticles, while nanoparticles with mainly smaller sizes in agglomerates are located on the surface of particles with mainly larger sizes, while on the surface /5 of agglomerates consisting of a mixture of silver and copper nanoparticles, there are mainly either silver nanoparticles, or copper nanoparticles.

The metal-containing biocidal additive for paints and varnishes contains agglomerates of nanoparticles. In the proposed technical solution, the phenomenon of agglomeration of nanoparticles, which was considered a harmful factor in colloidal solutions, is used as a beneficial factor. Since it is very difficult to obtain only small (and therefore very active) nanoparticles, and in practice nanoparticles with a large size dispersion are obtained that actively agglomerate, then in the proposed useful model structured agglomerates are created on the surface of which there are small (and therefore very active) nanoparticles . This makes it possible to turn the phenomenon of agglomeration of nanoparticles into a useful factor. At the same time, less active large nanoparticles are located in the centers of agglomerates and carry small particles on their surface, carrying them to the surface layers of varnishes and paints, where the maximum biocidal activity of paints and varnishes is needed.

The use of silver nanoparticles and copper nanoparticles, as well as a mixture of silver and copper nanoparticles allows - to expand the biocidal effectiveness of the composition both due to the use of two metals and due to the synergistic strengthening of the action of silver and copper when they are used together.

The arrangement in agglomerates of nanoparticles with mainly smaller sizes on the surface of particles with mainly (r) with larger sizes allows to increase the biocidal activity of the composition at the interface of the phases "air - paint and paint material" and "paint and paint material - surface to be painted", due to the preferential location in the surface layers of smaller, and therefore more active, nanoparticles

The location of silver nanoparticles or copper nanoparticles on the surface of the agglomerates allows obtaining biocidal compositions with a given biocidal activity. This is due to the fact that nanoparticles of that metal, which is on the surface of the agglomerates, will prevail at the interfaces of the phases "air - paint and paint material" and "paint and paint material - surface to be painted". So, for example, if there are mainly silver nanoparticles on the surface of the agglomerates, then the composition will have mainly bactericidal properties. If there are mainly copper nanoparticles on the surface of the agglomerates, then the composition will have mainly fungicidal properties. In agglomerates consisting of a mixture of silver and copper nanoparticles, the biocidal properties of both metals are mutually enhanced based on their synergistic action. з з Metal-containing biocidal additive for paint and varnish materials is obtained by electroerosion dispersion. of metal granules located in the reactor in deionized water or in alcohol, depending on which it will be added to paint and varnish materials | see Patent of Ukraine for utility model Mo18217. The method of obtaining ultrafine metal powder. IPC (2006) B22E 9/00, publ. 11/15/2006. Bul. Mo11). When pulses of electric current pass through the chains of silver and copper granules, the surface areas of the metal granules in the areas of spark discharges melt and explode into the smallest nanoparticles and steam.

The destruction products are cooled very quickly in a liquid environment, in which nanoparticles accumulate in a suspended state, forming a colloidal solution of metals. o Since there is a high potential gradient in the area of spark discharges, silver and copper nanoparticles acquire a surface charge. At the same time, the electric field of smaller-sized particles has a greater potential gradient than that of larger-sized particles. When small particles and large particles are located close to each other due to electrostatic induction, induced (induced) charges of the opposite sign (relative to the sign of the charge of the small particle) are formed on local areas of the surface of the large particle, opposite the small particle.

Therefore, small particles "stick" to the surface of a large particle, which, with a sufficient concentration of the colloidal solution, can completely cover the surface of the large particle. As a result, nanostructured agglomerates of silver and copper nanoparticles are formed. Due to the Coulomb forces, stable agglomerates of the same type are formed from metal particles containing a core of large particles and a shell of small particles. The drawing, as an example, shows photographs of agglomerates of copper particles obtained at different concentrations of fine and coarse particles in the original colloidal solution.

Claims (2)

The formula of the invention 1. A metal-containing biocidal additive for paint and varnish materials containing nanoparticles of silver, copper or a mixture of nanoparticles of silver and copper with sizes from 2 nm to 200 nm, which is characterized by the fact that it contains agglomerates of nanoparticles of silver or agglomerates of nanoparticles of copper, or agglomerates that consist of a mixture of silver and copper nanoparticles, while nanoparticles with mainly smaller sizes in agglomerates are located on the surface of particles with mainly larger sizes. 2. Metal-containing biocidal additive for paint and varnish materials according to claim 1, which is characterized by the fact that on the surface of agglomerates consisting of a mixture of silver and copper nanoparticles, silver nanoparticles are located mainly. Z. Metal-containing biocidal additive for paint and varnish materials according to claim 1, which is characterized by the fact that on the surface of agglomerates consisting of a mixture of silver and copper nanoparticles, copper nanoparticles are located mainly. z z " c "c) IF) p - and? ime) 1 («c) ime) s» 60 b5