AU2017309001A1

AU2017309001A1 - Antifungal composition, antifungal spray product and antifungal method

Info

Publication number: AU2017309001A1
Application number: AU2017309001A
Authority: AU
Inventors: Koji Nakayama; Hiroyuki Onodera; Tsutomu Oshima; Kazushi Sugamoto
Original assignee: Dainihon Jochugiku Co Ltd
Current assignee: Dainihon Jochugiku Co Ltd
Priority date: 2016-08-09
Filing date: 2017-08-03
Publication date: 2019-03-07
Anticipated expiration: 2037-08-03
Also published as: AU2017309001B2; CN114190391B; CN114190391A; WO2018030251A1; CN109561677A; TW201805026A; JP6732916B2; TWI652074B; JPWO2018030251A1; KR102179873B1; KR20190022749A

Abstract

Provided is an antifungal composition capable of exerting a more excellent antifungal effect than the existing organic antifungal agents. The antifungal composition comprises a triazole compound, a glycol and an alcohol, wherein: the triazole compound is tebuconazole; the glycol is propylene glycol and/or 1,3-butylene glycol; the alcohol is ethanol and/or 2-propanol; the blending ratio (by weight) of the triazole compound to the glycol is 1:10-1:0.5; and the composition further contains a deodorant component.

Description

(57) Abstract: Provided is an antifungal composition capable of exerting a more excellent antifungal effect than the existing organic antifungal agents. The antifungal composition comprises a triazole compound, a glycol and an alcohol, wherein: the triazole compound is tebuconazole; the glycol is propylene glycol and/or 1,3-butylene glycol; the alcohol is ethanol and/or 2-propanol; the blending ratio (by weight) of the triazole compound to the glycol is 1:10-1:0.5; and the composition further contains a deodorant component.

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FT0120AU

DESCRIPTION

ANTIFUNGAL COMPOSITION, ANTIFUNGAL SPRAY PRODUCT, AND

ANTIFUNGAL METHOD

TECHNICAL FIELD [0001]

The present invention relates to antifungal compositions, antifungal spray products, and antifungal methods for preventing mold growth.

BACKGROUND ART [0002]

Recent houses are so airtight that moisture builds up indoors, resulting in an environment in which molds grow easily. Molds commonly grow in a place where moisture and nutrients are present and the temperature is at a suitable level. In ordinary houses, molds are likely to grow on a curtain and wallpaper near a window, on which condensation easily occurs, a closet, a mattress, to which sweat adds moisture during sleep, etc. Therefore, it is desirable to take measures to prevent mold growth in such places.

[0003]

It is common practice to apply an antifungal agent to an object on which mold growth should be avoided. A conventional antifungal agent may, for example, contain silver (see, for

FT0120AU example, Patent Document 1) or a photocatalyst (see, for example, Patent Document 2). These are an inorganic antifungal agent. Meanwhile, there are known organic antifungal agents. For example, a triazole compound is used as an antifungal agent for wood (see, for example, Patent document 3).

CITATION LIST

PATENT LITERATURE [0004]

Patent

Document

Japanese

Unexamined

Patent

Application Publication No.

Patent

Document

Japanese

Unexamined

Patent

Application Publication No.

Patent

Document

3:

Japanese

Unexamined

Patent

Application Publication No.

2012-71471

SUMMARY OF INVENTION

TECHNICAL PROBLEM [0005]

A drawback to inorganic antifungal agents, typified by Patent documents 1 and 2, is that they easily undergo discoloration. Therefore, inorganic antifungal agents may not be suitable for household products such as curtains, wallpaper, and mattresses. Organic antifungal agents, typified by Patent document 3, do not cause a significant discoloration problem. However, there is room for improvement in the

FT0120AU efficacy of organic antifungal agents.

[0006]

With the above in mind, the present inventors have paid attention to organic antifungal agents, particularly suitable for household products, and have made efforts to develop a novel antifungal technique. That is, it is an object of the present invention to provide an antifungal composition that can have an antifungal effect superior to the conventional art in an organic antifungal agent. It is another object of the present invention to provide an antifungal spray product that contains such an antifungal composition and is therefore more convenient to use. It is still another object of the invention to provide an antifungal method of using such an antifungal spray product.

SOLUTION TO PROBLEM [0007]

To achieve the above object, an antifungal composition according to the present invention has a feature that it comprises a triazole compound, a glycol, and an alcohol.

[0008]

The present inventors have newly found that if a triazole compound is used in combination with a glycol, the antifungal effect of the triazole compound is enhanced, and that if a triazole compound is used in combination with an alcohol, the triazole compound is dispersed to an appropriate

FT0120AU extent. Therefore, the antifungal composition having the above feature can exert a more excellent antifungal effect than when a triazole compound is used alone.

[0009]

In the antifungal composition of the present invention, the triazole compound is preferably tebuconazole.

[0010]

According to the antifungal composition having this feature, tebuconazole is used as a preferable triazole compound, whereby a more excellent antifungal effect can be exerted.

[0011]

In the antifungal composition of the present invention, the glycol is preferably propylene glycol and/or 1,3-butylene glycol.

[0012]

According to the antifungal composition having this feature, propylene glycol and/or 1,3-butyleneglycol is used as a preferable glycol, whereby the antifungal effect of the triazole compound is particularly greatly enhanced.

[0013]

In the antifungal composition of the present invention, the alcohol is preferably ethanol and/or 2-propanol.

[0014]

According to the antifungal composition having this feature, ethanol and/or 2-propanol is used as a preferable

FT0120AU alcohol, whereby the triazole compound particularly has excellent dispersibility.

[0015]

In the antifungal composition of the present invention, the mixing ratio (weight ratio) of the triazole compound to the glycol is preferably 1:10-1:0.5.

[0016]

According to the antifungal composition having this feature, the mixing ratio (weight ratio) of the triazole compound to the glycol is set within an appropriate range, whereby the antifungal effect of the triazole compound can be efficiently enhanced by the glycol.

[0017]

The antifungal composition of the present invention preferably further comprises a deodorizing component.

[0018]

The antifungal composition having this feature further comprises a deodorizing component, whereby an unpleasant odor that may occur in a moist environment, in which molds easily occur, can be inhibited.

[0019]

In the antifungal composition of the present invention, the composition is preferably applied to at least one mold selected from the group consisting of Cladosporium, Alternaria, Fusarium, Penicillium, Aspergillus, Eurotium, and Wallemia.

FT0120AU [0020]

According to the antifungal composition having this feature, the growth of

Cladosporium,

Alternaria,

Fusarium,

Penicillium, Aspergillus

Eurotium, and Wallemia, which easily occurs in daily living spaces, can be prevented, and therefore, a high antifungal effect can be achieved in daily applications. In addition, the above molds have a dark or deep color. Therefore, when the antifungal composition having this feature is used to impart an antifungal effect to a fiber product or a paper product, the user can be given superior satisfaction of using the antifungal composition.

[0021]

In the antifungal composition of the present invention, the composition is preferably applied to a curtain.

[0022]

According to the antifungal composition having this

feature, molds	that proliferate on a curtain, which is
particularly a	conventional problem, can be effectively

inhibited.

[0023]

To achieve the above object, an antifungal spray product according to the present invention has a feature that it comprises a spray container, and a formulation contained in the spray container. The formulation contains the antifungal composition having any one of the above features, and water.

The content of the alcohol in the formulation is 20-60 wt%.

FT0120AU [0024]

According to the antifungal spray product having this feature, the antifungal spray product contains the antifungal composition of the present invention. Therefore, the antifungal effect of the triazole compound is enhanced by the glycol. In addition, the triazole compound is dispersed to an appropriate extent by the alcohol. Therefore, the antifungal spray product can exert a more excellent antifungal effect than that of the conventional art. In addition, the content of the alcohol in the formulation contained in the spray container is 20-60 wt%. Therefore, the triazole compound can be completely dissolved, without precipitation, in the formulation. Therefore, an accurate amount of the formulation can be applied to an object to be treated, by adjusting the number of times the formulation is sprayed.

In addition, if the alcohol content is in the above range, an appropriate spray pattern is formed, and therefore, the formulation can uniformly adhere to an object to be treated.

[0025]

To achieve the above object, an antifungal method according to the present invention has a feature that it comprises spraying the formulation of the above antifungal spray product, from the antifungal spray product, onto an object to be treated so that the formulation adheres to at least a portion of a surface of the object to be treated.

[0026]

FT0120AU

According to the antifungal method having this feature, the antifungal spray product of the present invention is used to cause the formulation to adhere to at least a portion of a surface of an object to be treated, so that an antifungal treatment is performed on the object to be treated, whereby mold growth can be effectively prevented.

DESCRIPTION OF EMBODIMENTS [0027]

An antifungal composition, antifungal spray product, and antifungal method according to the present invention will now be described. Note that the present invention is in no way intended to be limited to embodiments described below.

[0028]

The present inventors have newly found that if a triazole compound that is conventionally used as an antifungal agent for wood is utilized as a household antifungal agent in combination with a glycol, the antifungal effect of the triazole compound is enhanced, and that if a triazole compound is used in combination with an alcohol, the triazole compound is dispersed to an appropriate extent. Based on these findings, the present inventors have conceived the idea of a novel antifungal composition. Although described in detail in examples below, the antifungal composition of the present invention was placed together with water in a spray container to provide the antifungal spray product of the present

FT0120AU invention, and was applied to a curtain, which is a fiber product, and as a result, a superior antifungal effect was observed. As used herein, the term antifungal effect mainly means prevention of mold growth (including germination), which includes killing of a mold that has occurred, and inhibition of the growth of a mold that has occurred.

Examples of a mold whose proliferation can be inhibited by the antifungal composition product) of the present invention include Cladosporium black mold),

Alternaria,

Fusarium, Penicillium,

Aspergillus,

Eurotium, and

Wallemia.

These molds easily occur in daily living spaces, such as bedrooms, living rooms, bathrooms, lavatories, and kitchens, and their appearance has a dark or deep color .

Therefore, when the antifungal composition of the present invention is used to impart an antifungal effect to a fiber product (e.g., a curtain) or a paper product (e.g., wallpaper) in the living space, discoloration due to mold can be prevented or significantly reduced, and therefore, the user can be given superior satisfaction of using the antifungal composition of the present invention. In particular, when the present invention is applied to a curtain provided in a bedroom or living room, the curtain can feel clean and safe for the user.

[0029] <Antifungal Composition>

The antifungal composition of the present invention 9

FT0120AU contains, as main components, a triazole compound, a glycol, and an alcohol.

[0030]

Examples of the triazole compound include tebuconazole, imibenconazole-db, triadimenol, paclobutrazol, propiconazole, hexaconazole, penconazole, myclobutanil, and metconazole (registered trademark). Of them, tebuconazole is preferable. Note that these triazole compounds may be used alone or in combination .

[0031]

Examples of the glycol include ethylene glycol, propylene glycol, 1,3-butylene glycol, pentylene glycol, and 1,2-hexanediol. Of them, propylene glycol and 1,3-butylene glycol are preferable. Note that these glycols may be used alone or in combination.

[0032]

Examples of the alcohol include methanol, ethanol, 1propanol, 2-propanol, butanol, pentanol, and hexanol. Of them, ethanol and 2-propanol are preferable. Note that these alcohols may be used alone or in combination.

[0033]

In addition to the above triazole compound, glycol, and alcohol, the antifungal composition of the present invention may further contain a deodorizing component, a fragrance, and a pH adjusting agent. For example, when flavonoid is contained as the deodorizing component, an unpleasant odor that may

FT0120AU occur in a moist environment, in which molds easily occur, can be inhibited.

[0034]

In the antifungal composition of the present invention, the above components are blended together at an appropriate weight ratio, and water is added such that the concentration of each component becomes appropriate.

[0035]

Concerning the mixture of the above components, the mixing ratio (weight ratio) of the triazole compound to the glycol is preferably adjusted to 1:10-1:0.5, more preferably 1:10-1:1. In the case where the mixing ratio of the triazole compound to the glycol is less than 1:10 (i.e., the triazole compound content is less than 1/10 of the glycol content), the amount of the triazole compound is insufficient, and therefore, the antifungal effect is unlikely to be sufficiently exerted. In the case where the mixing ratio of the triazole compound to the glycol exceeds 1:0.5 (i.e., the triazole compound content is more than twice as great as the glycol content), the amount of the glycol is insufficient, and therefore, the antifungal effect of the triazole compound is unlikely to be sufficiently enhanced.

[0036]

Water is added such that the resultant formulation (a mixture of the triazole compound, glycol, alcohol, and water, and if necessary, other components) has an alcohol content of

20-60 wt%.

FT0120AU

Within that range, the triazole compound can be completely dissolved, without precipitation, in the formulation .

Therefore, it is easy to apply an accurate amount of the formulation to an object to be treated. In addition, an antifungal spray product described below which includes the formuation can form an appropriate spray pattern, and therefore, the formulation uniformly adheres to an object to be treated.

[0037] <Spray Product for Antifungal Agent>

A preferable product form of the antifungal composition of the present invention is a spray product. For example, an antifungal spray product according to the present invention is a spray container containing the above formulation (a mixture of at least the antifungal composition of the present invention and

The spray container is preferably equipped with a trigger sprayer .

As described above, the formulation contained in the spray container has an alcohol content of 20-60 wt%. This allows the formulation to diffuse in substantially circle when sprayed, and form a spray pattern in which the amount of the formulation applied to an object to be treated is substantially uniform. In addition, an accurate amount of the formulation can be applied to an object to be treated, by adjusting the number of times the formulation is sprayed.

[0038]

FT0120AU <Antifungal Method>

The antifungal method of the present invention can be carried out using the above antifungal spray product.

Specifically, a user squeezes the trigger of the antifungal spray product to spray the formulation toward a surface of an object to be treated. As a result, the formulation adheres to the surface of the object to be treated. In addition, the formulation is dried if necessary.

The formulation may be sprayed and dried multiple times.

The amount of the formulation sprayed onto an object to be treated is preferably

When the amount of the formulation sprayed is less than 9.0 g/m², the amount of the triazole compound and glycol, which are an active ingredient, is insufficient, and the antifungal effect may not be sufficient for objects to be treated that are formed of some materials.

When the amount of the formulation sprayed exceeds 13.5 g/m², the formulation may remain feeling sticky, even after being dried, on an object to be treated. When the series of antifungal processes is completed on an object to be treated, the superior antifungal effect is exerted on the object to be treated, whereby mold growth can be effectively prevented over a long period of time .

Examples [0039]

In order to verify the performance and usability of the antifungal composition of the present invention, an antifungal

FT0120AU test was conducted on a curtain, and the appearance and spray pattern of the liquid formulation were observed. The antifungal composition was formulated using tebuconazole as the triazole compound, propylene glycol and/or 1,3-butylene glycol as the glycol, and ethanol as the alcohol. Ionexchanged water was added to the antifungal composition to obtain a liquid formulation. The specific components of the antifungal composition are as follows:

tebuconazole (trade name: Biosaido R-BP20, manufactured by Taisho Technos Co., Ltd.);

propylene glycol (propylene glycol for industrial use manufactured by ADEKA Corporation);

1,3-butylene glycol (1,3-butylene glycol for industrial use manufactured by Daicel Corporation); and ethanol (95-wt% ethanol for industrial use manufactured by Japan Synthetic Alcohol Co., Ltd.).

The liquid formulation was placed in a spray container equipped with a trigger sprayer (part number: T014, manufactured by Canyon Corporation) to form an antifungal spray product according to the present invention.

[0040]

Preparation of Liquid Formulation>

Liquid formulations of Examples 1-7 and Comparative

Examples 1-3 were prepared as follows.

[0041] (Example 1)

FT0120AU

One hundred parts by weight of a liquid formulation was prepared by mixing 0.05 parts by weight of tebuconazole, 20 parts by weight of ethanol (ethanol having a concentration of 100 wt%, and this is also true of the following examples and comparative examples), and 0.5 parts by weight of propylene glycol, and adding ion-exchanged water to the mixture. In

Example 1, the mixing ratio (weight ratio) of tebuconazole to propylene glycol was 1:10. The formulation had an ethanol content of 20 wt%.

[0042]

One hundred parts by weight of a liquid formulation was prepared by mixing 0.1 parts by weight of tebuconazole, parts by weight of ethanol, and 0.5 parts by weight of propylene glycol, and adding ion-exchanged water to the mixture .

In Example 2, the mixing of tebuconazole to propylene glycol was

1:5. The formulation had an ethanol content of 40 wt% .

[0043]

One hundred parts by weight of a liquid formulation was prepared by mixing

0.2 parts by weight of tebuconazole, parts by weight of ethanol, and 0.2 parts by weight of 1,3butylene glycol, and adding ion-exchanged water to the mixture .

In Example 3, the mixing ratio (weight ratio) of tebuconazole to 1,3-butylene glycol was 1:1.

The formulation

FT0120AU had an ethanol content of 60 wt%.

[0044] (Example 4)

One hundred parts by weight of a liquid formulation was prepared by mixing 0.5 parts by weight of tebuconazole, 50 parts by weight of ethanol, 0.5 parts by weight of propylene glycol, and 0.5 parts by weight of 1,3-butylene glycol, and adding ion-exchanged water to the mixture. In Example 4, the mixing ratio (weight ratio) of tebuconazole to propylene glycol and 1,3-butylene glycol was 1:2. The formulation had an ethanol content of 50 wt%.

[0045] (Example 5)

One hundred parts by weight of a liquid formulation was prepared by mixing 0.1 parts by weight of tebuconazole, 40 parts by weight of ethanol, and 0.05 parts by weight of propylene glycol, and adding ion-exchanged water to the mixture. In Example 5, the mixing ratio (weight ratio) of tebuconazole to propylene glycol was 1:0.5. The formulation had an ethanol content of 40 wt%.

[0046] (Example 6)

One hundred parts by weight of a liquid formulation was prepared by mixing 0.2 parts by weight of tebuconazole, 65 parts by weight of ethanol, and 0.1 parts by weight of propylene glycol, and adding ion-exchanged water to the mixture. In Example 6, the mixing tebuconazole to propylene glycol was

1:0.5. The formulation had an ethanol content of wt%.

[0047]

One hundred parts by weight of a liquid formulation was prepared by mixing 0.1 parts by weight of tebuconazole, 10 parts by weight of ethanol, and parts by weight of 1,3butylene glycol, and adding ion-exchanged water to the mixture .

tebuconazole to 1,3-butylene glycol was

1:30.

The formulation had an ethanol content of 10 wt%.

(Comparative Example 1)

One hundred parts by weight of a liquid formulation was prepared by adding ion-exchanged water to 2 0 parts by weight of ethanol.

Thus, the liquid formulation of

Comparative

Example 1 contained neither tebuconazole nor a glycol (propylene glycol and/or 1,3-butylene glycol), and was equivalent to the formulation of

Example 1 from which tebuconazole and propylene glycol are removed.

(Comparative Example 2)

One hundred parts by weight of a liquid formulation was prepared by mixing 0.1 parts by weight of tebuconazole and 0.5 parts by weight of propylene glycol, and adding ion-exchanged 17

FT0120AU water to the mixture. Thus, the liquid formulation of Comparative Example 2 did not contain ethanol, and was equivalent to the formulation of Example 2 from which ethanol is removed.

[0050] (Comparative Example 3)

One hundred parts by weight of a liquid formulation was prepared by mixing 0.1 parts by weight of tebuconazole and 30 parts by weight of ethanol, and adding ion-exchanged water to the mixture. Thus, the formulation of Comparative Example 3 did not contain a glycol (propylene glycol and/or 1,3-butylene glycol).

[0051] <Appearance of Liquid Formulation>

The appearance of the liquid formulations of Examples 17 and Comparative Examples 1-3 was visually observed. The appearance of a liquid formulation was evaluated according to the following criteria:

circle: precipitation was not observed in the liquid formulation, and the liquid formulation was colorless and transparent; and cross: precipitation was observed in the liquid formulation, and the liquid formulation was turbid.

[0052] <Antifungal Effect>

A glucose-peptone medium was sprayed as a mold culture

FT0120AU medium to a lace curtain (sprayed region: 10 cm χ 10 cm), followed by drying for 1 hour. The liquid formulations of Examples 1-7 were sprayed onto the respective dried lace curtains (sprayed amounts: 9.9-11.1 g/m²) , using the antifungal spray products of the present invention containing the respective liquid formulations, followed by air drying for 1 hour. Similar tests were conducted using spray products containing the liquid formulations of Comparative Examples 1-

3. Next, a predetermined number of mold spores (Cladosporium (black mold), Penicillium) was attached to the lace curtains, to which water was then sprayed using an atomizer. The resultant curtains were each placed in a desiccator whose humidity was maintained at 90%, so that the mold was cultured. After 1 week, mold growth was checked. Mold growth was evaluated according to the following criteria:

double-circle: no mold growth was observed;

circle: slight mold growth was observed, but the appearance was still good;

triangle: mold growth was observed to some extent; and cross: mold growth was clearly observed.

[0053] <Spray Pattern>

Antifungal spray products of the present invention containing the liquid formulations of Examples 1-7, and spray products containing the liquid formulation of Comparative Examples 1-3, were used to spray the formulations toward

FT0120AU respective plastic plates from a distance of 20 cm, once per each spray product. A shape of each spray pattern formed on the plastic plate was visually observed, and a size of each spray pattern was measured using a scale.

The shape of each spray pattern was evaluated according to the following criteria :

circle: generally circular, uniform, and not irregular;

and triangle: non-uniform and irregular.

[0054]

CTest Results>

Test results of Examples 1-7 and Comparative Examples 13 are shown in Table 1 below together with the compositions of the liquid formulations.

[0055] [Table 1]

FT0120AU

Comparative Example3	<Z>	o CO	I	I	Balance (total :100)	00 co	O	<	O	17X17
<d
_>					(DO
omparat xample2					o o					CM
O	I	90	I	Balan (total :1	CM	X	o	<	12X1
Olli
rative Ie1					nee :100)	10.9				co
ompa xamp	I	o CM	I	I	(U ZS CD -M mo	O	X	O	X co
OLLI
Γ·					(DO
CD					OO					CM
Q.					C T-	_Ί___				1—
E	o	o	I	co	ila al:	,-:	O	O	<	X
CD					iU +-»	T—				CXJ
X					DO o
LU
CD					0)0
CD					oo					<55
mp	CM O	LO CO	o	I	C -ΤΟ zs -= q	9.9	O	O	<	X
CD					CD 4-J				<55
X					oo q
LU
LO					(DO
CD					oo					CO
Q.			LO		SZ T-	co				T—
E	o	o	o	I	co — CD	co	O	o	O	X
CD			o		CD +J	T—				co
X					m q
LU
					CD O
					oo					r·.
mp	LO o	o LO	LO o	LO o	SZ T- CD ZS — (D	0.3	O	©	O	X
CD					CD +J					r--
X					m o					1---
LU					ϋ
CO					(DO
CD					OO					r·.
amp	0.2	o co	I	0.2	C Tcd zs CD +J	co	O	©	O	7X1
X					00 q					₁___
LU
CM					(DO
CD					OO					co
Q.			90		C T-	co				T—
E CD	<Z>	o	I	cd zs OS ^ro CD	o	o	©	O	X co
X					00 q
LU
					(D θ'
				O O					co
Ql	LO		0.5		SZ >—	σ>
E	O O	O CM	I	CD	co	o	©	O	X
CD			(0 +J	T—				co
X					m o					1---
LU					•id

					<D					Z--X.
	uconazole	thanol	lene glycol	:ylene glyco	hanged wat	Ίε jap +-> c Z5 o	arance of formulation	ngal effect	lape of ray pattern	pattern (cm
/		LU	>	-t—'	o	F	(D O	Ξ5	<+-
	Te		Prop	,3-bi	X <D I SZ	ed ai	App liqui	Antif	-S- Q. ω ω	ize o
/					o	> CD				ω

	(iqSiaM Aq s^ued) siuauoduuoQ	Spi	s}\|nsaj qs9j_

FT0120AU [0056]

	Concerning the	antifungal	spray	products containing	the
liquid	formulations	of Examples	1-7,	the appearance of	the
liquid	formulations	did not	have a problem, i	• Θ . f

precipitation was not observed in the liquid formulations, and the liquid formulations remained colorless and transparent. The antifungal effect did not have a problem in practical use, although slight mold growth was observed in some of the liquid formulations. In particular, in Examples 1-4, no mold growth was observed, i.e., a superior antifungal effect was verified. Thus, it was suggested that the formulation having an ethanol content of 20-60 wt% is particularly effective. All the liquid formulations had a good spray pattern, although Examples 6 and 7 had a slightly non-uniform spray pattern shape.

[0057]

In contrast to this, the spray products containing the liquid formulations of Comparative Examples 1-3 did not simultaneously have a good appearance and antifungal effect of the liquid formulation, and the performance and usability thereof were inferior to those of Examples 1-7 (the present invention).

INDUSTRIAL APPLICABILITY [0058]

The antifungal composition, antifungal spray product, and antifungal method of the present invention are applicable

FT0120AU to, for example, fiber products, such as curtains, clothes, futons, mattresses, and pillows, and building materials, as walls of closets and wallpaper.

such

FT0120AU

Claims

1. An antifungal composition comprising:

a triazole compound;

a glycol; and an alcohol.

2. The antifungal composition of claim 1, wherein the triazole compound is tebuconazole.

3. The antifungal composition of claim 1 or 2, wherein the glycol is propylene glycol and/or 1,3-butylene glycol.

4. The antifungal composition of any one of claims

1-3, wherein the alcohol is ethanol and/or 2-propanol.

5. The antifungal composition of any one of claims 1-4, wherein the mixing ratio (weight ratio) of the triazole compound to the glycol is 1:10-1:0.5. 6. The antifungal composition of any one of claims

FT0120AU

1-5, further comprising:

a deodorizing component.

7. The antifungal composition of any one of claims

1-6, wherein the composition is applied to at least one mold selected from the group consisting of Cladosporium, Alternaria, Fusarium, Penicillium, Aspergillus, Eurotium, and Wallemia.

8. The antifungal composition of any one of claims

1-7, wherein the composition is applied to a curtain.

9. An antifungal spray product comprising:

a spray container; and a formulation contained in the spray container, wherein the formulation contains the antifungal composition of any one of claims 1-8, and water, and the content of the alcohol in the formulation is 20-60 wt% .

10. An antifungal method comprising:

spraying the formulation of the antifungal spray product of claim 9, from the antifungal spray product, onto an object to be treated so that the formulation adheres to at least a