JP4357209B2 - Antibacterial / antifungal / algae-proof composition - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an antibacterial / antifungal / algae-proof composition, and more particularly, exhibits an excellent effect in preventing the growth of microorganisms and algae such as bacteria and moss, industrial materials, industrial products, buildings, refrigeration The present invention relates to an antibacterial / antifungal / algae-proof composition suitable for suppressing contamination of the interior and exterior of buildings such as refrigerated warehouses, houses, condominiums, and cooling towers, and structural surfaces such as bridges.
[0002]
[Prior art]
In general, algae such as Chlorococcus, Trentoporia, Nostock, Chlorella, and Aspergillus, Penicillium, and Cladosporium are grown on the surface of buildings and the like. However, the appearance of the surface of the building or the like may be impaired, or the painted film may be deteriorated or cracked, which may adversely affect the building. Moreover, in a cooling tower etc., the above-mentioned growth of algae and moss sometimes causes troubles such as clogging of piping and a decrease in cooling effect. Furthermore, in the building room, generation of bad odor due to bacterial contamination, pathogen infection in hospitals, nursing homes, etc. are social problems.
[0003]
Conventionally, an antibacterial metal component having an antibacterial action against bacteria has been known to have an antifungal action against moss and also has an antialgae action against algae (see, for example, Patent Document 1). ). In general, the same substance is often used for an antibacterial agent having antibacterial activity against bacteria and an antifungal agent having antifungal activity against moss, and when the object is a fungus, it is called an antibacterial agent. In the case of moss, it is often called an antifungal agent. Moreover, the same substance is used also about an algae preventive agent, since the same substance as an antibacterial agent has an algae preventive action with respect to algae.
[0004]
The antibacterial / antifungal / algaeproofing agents are roughly classified into organic and inorganic types, but generally used compounds are many organic compounds. As an organic antibacterial agent that exhibits effects such as antibacterial property, antifungal property, and algaeproof property (the antibacterial agent also has an antifungal property and an antialgae property, and may be referred to as an antifungal agent or an antialgae agent) Is thiazole, isothiazole, imidazole, pyridine, triazine, aldehyde, phenol, biguanide, nitrile, halogen, anilide, disulfide, thiocarbamate, organosilicon quaternary ammonium salt Examples include synthetic organic antibacterial agents such as quaternary ammonium salts, amino acids, organometallics, alcohols, carboxylic acids, and esters, and natural organic antibacterial agents such as hinokitiol and chitosan. However, organic antibacterial / antifungal / algae-proofing agents are not sufficient in terms of sustainability of the effect, and it remains difficult to maintain the effect for a long period of time.
[0005]
On the other hand, as an inorganic antibacterial agent exhibiting effects such as antibacterial properties and antifungal properties, an antibacterial agent obtained by ion exchange of a certain volume of zeolite having a specific ion exchange capacity with silver ions (for example, see Patent Document 2) Examples thereof include an antibacterial agent composed of a colloidal solution in which fine particles composed of an antibacterial metal component and an inorganic oxide other than the antibacterial metal component are dispersed (for example, see Patent Document 3). However, the above-mentioned zeolite-based antibacterial agent has an adverse effect on the surface color of the coated body because it is a powder when used in a paint, and is inferior in stability due to poor dispersibility. Such problems are pointed out.
[0006]
Furthermore, in order to improve the sustainability of the effects of the above-mentioned organic antibacterial / antifungal / algaeproofing agents, an organic antifungal agent and an inorganic antibacterial agent are blended as a method of using both organic and inorganic. An antifungal silicone rubber composition has been proposed, in which an antibacterial metal such as silver is supported on a ceramic of a calcium compound such as zeolite, silica, or hydroxyapatite as an inorganic antibacterial agent (for example, , See Patent Document 4). However, since the inorganic antibacterial agent is a powder of a carrier such as zeolite, the composition also has problems such as adversely affecting the color tone and poor stability due to poor dispersibility.
[0007]
[Patent Document 1]
Japanese Patent Laid-Open No. 7-150075 [Patent Document 2]
JP-A-3-161409 [Patent Document 3]
Japanese Patent Laid-Open No. 7-3316 [Patent Document 4]
Japanese Patent Laid-Open No. 7-76654
[Problems to be solved by the invention]
The object of the present invention is that the above-mentioned organic antibacterial agent / antifungal agent / algae-proofing agent has different antibacterial / antifungal / algae-proofing effects depending on the type of bacteria, spiders, etc. The antibacterial, antifungal and anti-algae effects can be maintained over a long period of time. It is to provide an algal composition.
[0009]
[Means for Solving the Problems]
The inventors of the present invention provide an organic antibacterial / antifungal / algaeproofing agent composed of a conventional thiazole compound and / or an imidazole compound, and an inorganic having an average particle diameter of 500 nm or less having an antibacterial / antifungal / algaeproofing action. To find out that an antibacterial / antifungal / algae-proof composition containing oxide fine particles exhibits an antibacterial / antifungal / algae-proofing action superior to the case of using these alone, to complete the present invention It came.
[0010]
The first of the present invention relates to an antibacterial / antifungal / algae-proof composition, an inorganic oxide fine particle having an antibacterial / antifungal / algae-proofing effect and having an average particle size of 500 nm or less, a thiazole compound and / or an imidazole compound It contains an organic antibacterial / antifungal / algae-proofing agent composed of a compound.
A second aspect of the present invention is characterized in that the inorganic oxide fine particles are composed of a metal component having antibacterial / antifungal / algae-proofing action and an inorganic oxide other than the metal component.
According to a third aspect of the present invention, at least one selected from the group consisting of silver, copper, zinc, lead, tin, bismuth, cadmium, chromium, mercury, nickel, and cobalt is used as the metal component having antibacterial / antifungal / algaeproofing action. The metal component is contained.
A fourth aspect of the present invention is characterized in that the inorganic oxide fine particles are fine particles dispersed in water and / or an organic solvent dispersion medium.
A fifth aspect of the present invention is characterized in that the light transmittance at a wavelength of 500 nm of the dispersion liquid (colloidal solution) in which the solid content concentration of the inorganic oxide fine particles is 1.0% by weight is 50% or more.
A sixth aspect of the present invention is characterized in that the antibacterial / antifungal / algae-proof composition contains the inorganic oxide fine particles in a range of 0.001 to 25% by weight in the composition.
A seventh aspect of the present invention relates to a coating composition, comprising any one of the antibacterial / antifungal / algae-proofing compositions described above.
[0011]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, preferred embodiments of the present invention will be described in detail.
In the present invention, the inorganic oxide fine particles having antibacterial / antifungal / algae-proofing functions are required to have an average particle diameter of 500 nm or less. When the average particle size of the inorganic oxide fine particles is larger than 500 nm, the dispersibility is poor when mixed with an organic antibacterial / antifungal / algaeproofing agent composed of a thiazole-based compound and / or an imidazole-based compound. Antibacterial / antifungal / algae-proofing effect cannot be obtained. Further, since the scattering of visible light increases when the average particle size of the inorganic oxide fine particles is larger than 500 nm, the antibacterial / antifungal / algae-proof composition containing the fine particles and the coating composition containing the composition The transparency of the coating film formed from is impaired. Further, when the coating composition is colored, the surface color tone of the coated body obtained by coating is changed, and the coated body having a desired color tone cannot be obtained. The average particle diameter of the inorganic oxide fine particles is preferably in the range of 3 to 300 nm, particularly 5 to 250 nm.
Further, in the particle size distribution of the inorganic oxide fine particles, the ratio of the average particle size to the range of the particle size of ± 30% is preferably 50% or more, preferably 60% or more, more preferably 70% or more.
[0012]
Examples of the metal component having antibacterial / antifungal / algae-proofing effects in the present invention include silver, copper, zinc, lead, tin, bismuth, cadmium, chromium, mercury, nickel, cobalt, and the like. One or more metal components selected from zinc are preferable from the viewpoints of antibacterial / antifungal / algae-proofing action, discoloration and safety to human body.
[0013]
The inorganic oxide fine particles are preferably fine particles (colloid particles) that are dispersed in water and / or an organic solvent to form a colloidal solution. Furthermore, the inorganic oxide fine particles are preferably colloidal particles composed of a metal component having antibacterial, antifungal and antialgal properties and an inorganic oxide other than the metal component.
Examples of the inorganic oxide other than the metal component having antibacterial / antifungal / algae-proofing effects include inorganic oxides constituting a generally known colloidal solution. Single or complex oxide colloidal particles or mixtures thereof can be used.
Examples of the single inorganic oxide include SiO ₂ , Al ₂ O ₃ , TiO ₂ , ZrO ₂ , Fe ₂ O ₃ , Sb ₂ O ₃ , WO ₃ , CeO _2, etc. Composite oxides of oxides and other inorganic oxides, for example, SiO ₂ · Al ₂ O ₃ , SiO ₂ · TiO ₂ , SiO ₂ · ZrO ₂ , Al ₂ O ₃ · TiO ₂ , Al ₂ O ₃ · CeO ₂ TiO ₂ · CeO ₂ , TiO ₂ · ZrO ₂ , SiO ₂ · TiO ₂ · ZrO ₂ , SiO ₂ · TiO ₂ · CeO _{2 and the} like.
[0014]
The inorganic oxide fine particles described above preferably contain a metal component having antibacterial, antifungal and antialgal properties in an amount of 0.01% by weight or more in terms of oxide based on the total amount of inorganic oxide. When the content of the metal component is less than 0.01% by weight, the antibacterial / antifungal / algae-proofing action may not be sufficiently exhibited. The amount of the metal component is preferably in the range of 0.01 to 50% by weight, particularly 0.5 to 30% by weight.
[0015]
In the present invention, the light transmittance at a wavelength of 500 nm of the colloidal solution having a solid content concentration of the inorganic oxide fine particles of 1.0% by weight is preferably 50% or more. Here, the light transmittance is an inorganic oxide having a solid content concentration of 1 cm in thickness of 1.0% by weight when the transmittance of light having a wavelength of 500 nm in water having a thickness of 1 cm is defined as 100%. The relative value of the transmittance of light of the same wavelength in a colloidal solution.
When the light transmittance of the inorganic oxide colloidal solution is less than 50%, the coating material containing the antibacterial / antifungal / algaeproofing composition prepared from the colloidal solution is applied to the surface of a material such as a resin molding. When applied to the film, the transparency of the coating film formed may be reduced. In particular, when an antibacterial / antifungal / algae-proof composition is used for a textile product, the pattern or color of the product may be impaired. The light transmittance is preferably 60% or more, particularly 70% or more.
[0016]
The inorganic oxide fine particles having antibacterial / antifungal / algae-proofing effects can be produced, for example, by the method described in JP-A-9-38483. That is, the antibacterial / antifungal / algae-preventing antibacterial / antifungal / algae-resistant colloidal aqueous solution containing inorganic oxide colloidal particles other than the metal component (hereinafter also referred to as an aqueous sol). This is a method in which a metal salt of a metal component having a sexual activity or an aqueous solution thereof and an anion exchanger are mixed, and the metal component having an antibacterial / antifungal / algaeproof activity is supported on the inorganic oxide colloidal particles.
[0017]
The antibacterial / antifungal / algae-proof composition of the present invention comprises the above-mentioned inorganic oxide fine particles and an organic antibacterial / antifungal / algae-proofing agent comprising a thiazole compound and / or an imidazole compound. And The amount of the inorganic oxide fine particles contained in the composition is preferably in the range of 0.001 to 25% by weight. When the content of the fine particles is less than 0.001% by weight, there is no difference in effect from the case of the organic antibacterial / antifungal / algae-proof agent alone, and the effect of using the fine particles may not appear. Even if the content of the fine particles is more than 25% by weight, the effect of using the fine particles together is the same as the case of the 25% by weight content. The content of the inorganic oxide fine particles is more preferably in the range of 0.01 to 15% by weight.
The organic antibacterial / antifungal / algaeproofing agent can contain known organic antibacterial / antifungal / algaeproofing agents in addition to thiazole compounds and / or imidazole compounds.
[0018]
As the antibacterial / antifungal / algae-proofing agent comprising a thiazole compound in the present invention, a 5-membered heterocyclic compound having nitrogen and sulfur atoms in the ring and having antibacterial / antifungal / algae-proofing action, generally antibacterial That are used as an agent, an antifungal agent, an algae preventive agent can be used, and thiazole, benzothiazole, thiazoline, thiazoline-2-one, benzothiazoline-2-one, isothiazoline-3-one, benzoisothiazoline-3 Derivatives such as -one, such as 2-mercaptobenzothiazole, 2-mercaptobenzothiazole sodium, 2-mercaptobenzothiazole zinc, 2- (thiocyanomethylsulfonyl) benzothiazole, 2- (thiocyanomethylthio) benzothiazole, 2 -(N-octyl) -4-isothiazol-3-one, 5-chloro-2-methyl- - isothiazolin over 3-one, 2-methyl-4-isothiazolin over 3-one, 1,2-isothiazolin over 3-one, 2- (4-thiocyanomethylthio) benzothiazole.
[0019]
In addition, the organic antibacterial / antifungal / algaeproofing agent comprising an imidazole compound in the present invention is a five-membered heterocyclic compound containing a nitrogen atom in the ring and having antibacterial / antifungal / algaeproofing action. Say. Derivatives such as pyrrole, pyrazole, imidazole, benzimidazole, and triazole, which are generally used as antibacterial agents, antifungal agents, and algaeproof agents, such as 2- (4-thiazolyl) -benzimidazole, 2- (thiocyanomethylthio ) Benzimidazole, 1- (butylcarbamoyl) -2-benzimidazole carbamate, and the like.
[0020]
As the form of the antibacterial / antifungal / algae-proof composition of the present invention, as a general preparation form, a composite agent, a flowable agent, an emulsion, an aqueous solvent, a pellet, a powder, a spray, a tablet, a method, an oil, an immobilization Agents and the like.
The antibacterial / antifungal / algae-proof composition of the present invention can be applied to, for example, the following fibers, resins, rubbers, and other various objects and applications.
(1) Application to fibers Antibacterial, antifungal and antialgal properties can be imparted to various types of fibers, including natural fibers (cotton, wool, silk, hemp, pulp, etc.), semi Synthetic fibers (rayon, cupra, acetate, etc.), synthetic fibers (polyester, polyurethane, polyvinyl acetal, polyamide, polyamide, polyolefin, polyvinyl chloride, polyvinylidene chloride, polyacrylonitrile, polyfluorine, etc.) or inorganic fibers (glass) And ceramics). In order to impart antibacterial / antifungal / algae-proofing properties to these fibers, the fiber is brought into contact with the antibacterial / antifungal / algae-proofing composition of the present invention, and then washed with water or dried, or the fibers are coated with this fiber. Known methods such as a method of spraying the antibacterial / antifungal / algae-proof composition of the invention are employed.
[0021]
As the fiber to which antibacterial / antifungal / algae resistance is imparted, all of raw fiber, intermediate fiber product, and final fiber product are targeted. Final textile products include, for example, general clothing (blouses, skirts, shirts, trousers, dresses, sweaters, cardigans, aprons, uniforms, pants, stockings, socks, pantyhose, bras, girdles, Japanese clothing, tabi, interlining , Belt interlining, etc.), personal items (handkerchiefs, scarves, hats, gloves, watch bands, bags, handbags, shoes, footwear, shoe rugs, etc.), interior goods (curtains, blinds, carpets, mats, tablecloths, toiletries) , Car seat covers, etc.), miscellaneous goods (towels, towels, mops, tents, sleeping bags, stuffed animals, filters, brushes, etc.), bedding (blankets, mattresses, towels, bedding covers, futon linings, padding, etc.) ), Products used in hospitals (lab coats, hands worn by nurses, etc.) Surgical clothes, masks, diapers, diaper covers, etc.).
[0022]
(2) Application to resin and rubber The antibacterial / antifungal / algae-proofing composition of the present invention can impart antibacterial / antifungal / algaeproofing properties to thermoplastic resins, thermosetting resins and rubbers.
Examples of the resin include phenolic resins, urea resins, melamine resins, alkyd resins, diallyl phthalate resins, epoxy resins, polyurethane resins, silicon resins, and other thermosetting resins, polyvinyl chloride. Resin, polyvinylidene chloride resin, fluorine resin, polyvinyl fluoride resin, polyvinylidene fluoride resin, polyvinyl acetate resin, polyvinyl alcohol resin, polyvinyl formal resin, saturated polyester resin, polyethylene resin, Polypropylene resin, polystyrene resin, ABS resin, acrylic resin, polyamide resin, polyacetal resin, chlorinated polyether resin, polycarbonate resin, polyarylate resin, ethyl cellulose, cellulose acetate, cellulose nitrate, etc. Raising It is. The types of rubber include natural rubber, isoprene rubber, acrylonitrile rubber, acrylic rubber, butadiene rubber, butyl rubber, styrene rubber, chloroprene rubber, chlorohydrin rubber, polyolefin rubber, urethane rubber, Examples include elastomers and rubbers such as polysulfide rubber, silicone rubber, fluorine rubber, and fluorosilicone rubber.
[0023]
In order to impart antibacterial, antifungal and antialgal properties to these resins or rubbers, the antibacterial, antifungal and antialgal properties of the present invention are added to these raw materials, and the antibacterial, antifungal and antialgal properties are added Alternatively, a method of obtaining antibacterial / antifungal / algae-proof rubber, a method of adding the antibacterial / antifungal / algae-proof composition to a masterbatch resin, an antibacterial / antifungal / antialgae under heating with a resin molded product The method can be carried out by a known method such as a method of bringing a functional composition into contact or a method of applying an antibacterial / antifungal / algae-proof composition to a resin molded product.
[0024]
Examples of the resin molded product include plates, rods, pipes, tubes, films, sheets, containers, foams, and other various molded products or composite molded products. Specific examples of resin molded products include indoor equipment (floor materials, wall materials, toilet seats, bathtubs, washstands, sinks, tables, etc.), protective cases for artworks, kitchenware (tea bowls, lunch boxes, trays, water bottles, etc.) Plastic tableware, cutting boards, beverage containers, refrigerator containers, etc., personal items (combs, shaving tools, brushes, earphones, glasses frames, etc.), childcare items (toys, etc.), daily miscellaneous goods (trash cans) , Dust collectors, general containers, etc.), packaging materials (garbage bags, packaging films, etc.), automobile interior parts (handles, seats, etc.), items that can be touched by an unspecified number of people (vehicle suspension leather and its grips) , Waiting room chairs and benches, handrails, various push buttons, telephone receivers, pachinko machines, etc.), medical supplies (hospital dishes, syringes, stethoscopes, surgical gloves, infusion bottles, catheters, medical equipment resin parts, etc. ), Stationery instruments (ballpoint pens, pencils, etc.) Electrical and electrical appliances (refrigerator, dish washer, washing machine, vacuum cleaner, fan, air conditioning, TV, computer, personal computer or the like), and the like.
[0025]
(3) Application to other fields The antibacterial / antifungal / algae-proofing composition of the present invention comprises water purifiers, water treatment agents such as pool water, fishing nets, concrete structures such as bridges, steel building materials, Building materials, joinery materials (wallpaper, bags, shoji, tatami, etc.), ceramics (tiles, pottery, porcelain, etc.), leather products (bags, shoes, fur, wallets, regular holders, etc.), wooden products (desks, cupboards, Chests, floor boards, ceiling boards, interior materials, etc.), paper products (tissue paper, cardboard paper, paper cups, paper plates, etc.), glass products (vases, water tanks, etc.), metal products (sashes, kettles, car air conditioners, etc.), It can impart antibacterial, antifungal and antialgal properties to cosmetic materials and cat sand.
[0026]
The coating composition of the present invention is a coating composition containing the antibacterial / antifungal / algae-proofing composition described above. The coating composition is obtained by adding the above-mentioned antibacterial / antifungal / algae-proofing composition to a coating composition comprising a normal coating film-forming component and a solvent. The content of the antibacterial / antifungal / algae-proofing composition in the coating composition is preferably in the range of 0.1 to 20% by weight.
[0027]
Moreover, the coating composition of this invention can be coated and dried on the surface of a base material by a well-known method, for example, coating methods, such as a spray, a brush, a roll, dipping, and can form a coating film. The coating film obtained from the coating composition has excellent weather resistance, water resistance and durability, so that it has antibacterial, antifungal and antialgal properties over a long period of time, as well as deodorant, deodorant, antifouling properties, etc. In addition, the particle diameter of the fine particles is small, the coating film is excellent in transparency, the appearance of the substrate is excellent, and the adhesion is not hindered.
Accordingly, the coating composition is applied to the interior and exterior of buildings such as buildings, freezer / refrigerated warehouses, houses, condominiums, and cooling towers, coating the surface of structures such as bridges, interior and exterior of ships and vehicles, and the coating of agricultural film surfaces. Can be used in a wide range of applications.
The coating composition of the present invention, in particular, exterior walls of houses, window frames, doors, shutters, roof tiles, rain gutters, interior materials such as closets, toilets, bathrooms, and kitchens, textile materials such as carpets and curtains, It is suitable for coating the surface of resin moldings such as PVC pipes, glass surfaces such as water tanks, and concrete surfaces.
[0028]
【The invention's effect】
In the antibacterial / antifungal / algae-proof composition and coating composition of the present invention, the inorganic oxide fine particles having antibacterial / antifungal / anti-algae properties contained in the composition are fine particles having an average particle diameter of 500 nm or less. Therefore, it has no effect on color tone, etc., and has antibacterial, antifungal and antialgal properties over a long period of time, as well as maintaining effects such as deodorant, deodorant and antifouling properties. It is suitably used for applications where antibacterial agents, organic antifungal agents and organic antialgal agents are used.
[0029]
【Example】
EXAMPLES The present invention will be specifically described below with reference to examples and comparative examples, but the present invention is not limited to these examples.
[0030]
Example 1
2740 g of water was added to 13.7 g of zinc nitrate (Zn (NO ₃ ) ₂ .6H ₂ O) to prepare an aqueous zinc nitrate solution having a concentration of 0.5% by weight. 4.0 kg of a titania colloid solution having a TiO ₂ concentration of 1% by weight was collected in a beaker and heated to 50 ° C. while stirring. At this time, the pH of the aqueous titania colloid solution was 7.9. The zinc nitrate aqueous solution was added to the titania colloid aqueous solution by a peristaltic pump at a rate of 10 g / min. When the pH of the colloidal aqueous solution began to drop due to the addition of the zinc nitrate solution, anion exchange resin (manufactured by Mitsubishi Chemical Corporation) was added little by little so as to maintain the initial pH of 7.9. This operation was continued until the addition was completed. The total amount of anion exchange resin used was 239 g, and the final pH of the aqueous colloidal solution was 8.1. This colloidal aqueous solution was washed with 200 times the weight of TiO ₂ with an ultrafiltration membrane device, and then concentrated to a colloidal aqueous solution in which stable zinc-supporting titania fine particles having a solid content concentration of 10% by weight were dispersed (A) Got. The supported amount of ZnO in the solid content of the aqueous colloidal solution (A) was 10.0% by weight. The average particle diameter Dp of the fine particles dispersed in the aqueous colloidal solution was 8.0 nm when measured with an ultracentrifugal automatic particle size distribution analyzer (CAPA-700), and the average particle diameter range of ± 30%. The ratio to 82% was 82%. The light transmittance of the aqueous colloidal solution (A) was 75.8%.
Next, Coatside 55D (Takeda Pharmaceutical Co., Ltd.) comprising commercially available anti-algae fungicide, methyl 2-benzimidazole carbamate (BCM) and 2- (n-octyl) -4-isothiazol-3-one (OIT) 10 parts by weight of the above-mentioned colloidal aqueous solution (A) was added to 100 parts by weight of product (trade name) and stirred to prepare an antibacterial / antifungal / algae-proof composition (A-1).
[0031]
Example 2
In Example 1, in place of zinc nitrate (Zn (NO ₃ ) ₂ .6H ₂ O), 3.3 g of silver nitrate AgNO ₃ was used, and the same operation as in Example 1 was carried out to disperse colloidal silver-supported titania fine particles. An aqueous solution (B) was prepared. The amount of Ag ₂ O supported in the solid content of the aqueous colloidal solution (B) was 5.1% by weight, and the total amount of anion exchange resin used was 101.0 g. The average particle diameter Dp of the fine particles dispersed in the aqueous colloidal solution was 7.1 nm when measured with an ultracentrifugal automatic particle size distribution analyzer (CAPA-700), and the average particle diameter range of ± 30%. The ratio to 82% was 82%. The light transmittance of the aqueous colloidal solution (B) was 76.4%.
Next, Coatside 55D (Takeda Pharmaceutical Co., Ltd.) comprising commercially available anti-algae fungicide, methyl 2-benzimidazole carbamate (BCM) and 2- (n-octyl) -4-isothiazol-3-one (OIT) 10 parts by weight of the above-mentioned colloidal aqueous solution (B) was added to 100 parts by weight of product (trade name) and stirred to prepare an antibacterial / antifungal / algae-proof composition (B-1).
[0032]
Example 3
10 parts by weight of the aforementioned aqueous colloidal solution (B) is added to 100 parts by weight of a commercially available antifungal agent, Coatside D (trade name) manufactured by Takeda Pharmaceutical Co., Ltd. -An antifungal / algae-proof composition (B-2) was prepared.
Example 4
10 parts by weight of the aforementioned aqueous colloidal solution (B) are added to 100 parts by weight of Hoxter (made by Hokuko Chemical Co., Ltd .: trade name), which contains a commercially available antifungal agent, 2- (4-thiazoline) -benzimidazole (TBZ). Part was added and stirred to prepare an antibacterial / antifungal / algae-proof composition (C-1).
[0033]
Comparative Examples 1-4
10 parts by weight of purified water was added to 100 parts by weight of a commercially available anti-algae fungicide, Coatside 55D (manufactured by Takeda Pharmaceutical Co., Ltd .: trade name) and stirred to give an anti-algae (H-1) ( Comparative Example 1).
10 parts by weight of purified water was added to 100 parts by weight of a commercially available antifungal agent, Coatside D (manufactured by Takeda Pharmaceutical Co., Ltd .: trade name) and stirred to obtain an antifungal agent (H-2) (Comparative Example 2).
100 parts by weight of purified water was added to 10 parts by weight of the aqueous colloidal solution (A) prepared in Example 1, and stirred to obtain an antibacterial agent (H-3) (Comparative Example 3).
100 parts by weight of purified water was added to 10 parts by weight of the aqueous colloidal solution (B) prepared in Example 2, and stirred to obtain an antibacterial agent (H-4) (Comparative Example 4).
[0034]
Example 5 (Evaluation Test)
Antibacterial / antifungal / algae-proof compositions (A-1), (B-1), (B-2), (C-1) of Examples 1 to 3 and (H-1 of Comparative Examples 1 to 4) ), (H-2), (H-3) and (H-4) were used to evaluate the antialgae, antibacterial and antifungal effects by the following test methods. The evaluation results are shown in Table 1. In addition, the minimum growth concentration evaluation evaluated the minimum growth concentration by which growth, such as algae or a fungus, was inhibited by visual observation.
It can be seen from Table 1 that the antibacterial / antifungal / algae-proof composition of the present invention has a remarkable effect of preventing the growth of algae and fungi.
[0035]
(1) Algae test method As a test strain, a mixture of three strains of Euglella gracilis, Ulothrix variabilis and Oscillatoria neglecta was used.
C agar medium was used as a test medium. This was prepared by adding 1.5% agar to a liquid C medium prepared from calcium nitrate tetrahydrate, potassium nitrate, vitamin B ₁₂ , trisaminomethane, purified water, etc. and suitable for the above three mixed strains. Is.
A test method for measuring the minimum growth inhibitory concentration was adopted. In this test, specimens adjusted to 2.5, 5.0, 10.0, 20.0, 40.0, 80.0, and 160 ppm concentrations were added to the C agar medium, respectively. The test algae were inoculated with a platinum wire and cultured at a temperature of 25 ± 1 ° C. for 14 days under light irradiation with an illuminance of 2000 to 3000 lx.
[0036]
(2) Antibacterial test method The test strain used was a mixture of three strains of Bacillus sabtilis, Staphylococcus aureus, and Escherichia coli.
A standard agar medium (manufactured by Nissui Pharmaceutical Co., Ltd.) was used as a test medium. This is obtained by dissolving 2.5 g of yeast extract, 5 g of peptone and 1 g of glucose in 1 L of purified water and adding 1.5% agar.
Similar to the algae test, a test method for measuring the minimum growth inhibitory concentration was adopted, and 2.5, 5.0, 10.0, 20.0, 40.0, 80.0, 160 ppm were applied to the standard agar medium, respectively. A sample adjusted to a concentration was added, and the test bacteria were inoculated with a platinum wire thereon, and then cultured at a temperature of 37 ± 1 ° C. for 3 days.
[0037]
(3) Antifungal test method The test strain used was a mixture of five strains of Asperugillus niger, Penicillium citrium, Cladosporium cladosporioides, Chaetomium globosum, and Rhizopus strolonifer.
Potato dextrose agar medium (manufactured by Nissui Pharmaceutical Co., Ltd.) was used as the test medium. This is obtained by dissolving 4.0 g of potato and 20 g of glucose in 1 L of purified water and adding 1.5% agar.
As with the algal control test, a test method for measuring the minimum growth inhibitory concentration was adopted, and 2.5, 5.0, 10.0, 20.0, 40.0, 80.0, potato dextrose agar medium, respectively. A specimen adjusted to a concentration of 160 ppm was added, and test fungi were inoculated thereon with a platinum wire, followed by culturing at a temperature of 28 ± 1 ° C. for 14 days.
[0038]
[Table 1]

Claims (4)

A dispersion of titania fine particles having an average particle diameter of 500 nm or less carrying zinc or silver , methyl 2-benzimidazole carbamate (abbreviation BCM), 2- (n-octyl) -4-isothiazol-3-one (abbreviation OIT), or 2- (4-thiazoline) - benzimidazole (abbreviation TBZ) antibacterial, antifungal or antialgal composition comprising a organic antibacterial, antifungal or Bomozai including. The solids concentration of the titania fine particles is 1.0% by weight of the dispersion, antibacterial, antifungal or antialgal composition of claim 1, wherein the light transmittance is 50% or more at a wavelength of 500nm object. The antibacterial / antifungal composition according to claim 1 or 2, wherein the antibacterial / antifungal / algae-proof composition contains the titania fine particles in a range of 0.001 to 25% by weight in the composition.・ An algal control composition. Coating composition containing the antibacterial, antifungal or antialgal composition according to any one of 3 claims 1.