Stock material or miscellaneous articles – Web or sheet containing structurally defined element or... – Composite having voids in a component
Reexamination Certificate
1998-10-07
2001-09-25
Copenheaver, Blaine (Department: 1773)
Stock material or miscellaneous articles
Web or sheet containing structurally defined element or...
Composite having voids in a component
C428S313900, C428S317700, C502S242000, C502S309000, C430S947000, C430S439000
Reexamination Certificate
active
06294247
ABSTRACT:
TECHNICAL FIELD
The present invention relates to a multi-functional material capable of performing various functions including a deodorizing function, an antibacterial function, a bactericidal function, and a stain-resistant function, and a method of manufacturing such a multi-functional material.
BACKGROUND ART
TiO
2
, V
2
O
5
, ZnO, WO
3
, etc. have heretofore been known as substances which, when irradiated by ultraviolet radiation, cause oxygen molecules to be adsorbed to or desorbed from an organic compound such as a smelly constituent for promoting decomposition (oxidation) of the organic compound. Since particles of TiO
2
whose crystallized form is anatase, in particular, are highly effective for use as a photocatalyst, it has been proposed to form a photocatalytic layer of TiO
2
particles on the surface of walls, tiles, glass (mirror), circulatory filter units, or sanitary ware.
Known processes of depositing such a photocatalytic layer of TiO
2
particles directly on the surface of a base of plastic, ceramic, or resin include the CVD process, the sputtering process, and the electron beam evaporation process.
However, the CVD process, the sputtering process, and the electron beam evaporation process require large-scale equipment, and result in a high manufacturing cost due to a poor yield.
According to other known processes of forming a photocatalytic layer, photocatalytic particles are kneaded with a binder and coated on the surface of a base by spray coating or dip coating, and thereafter heated (see Japanese laid-open patent publication No. 5-201747).
For photocatalytic particles such as TiO
2
particles to function effectively as a photocatalyst, it is necessary that the photocatalytic particles be irradiated with ultraviolet radiation and held in contact with a substance to be decomposed thereby such as a smelly gas or the like. Kneading photocatalytic particles with a binder and coating them on the surface of a base as disclosed in Japanese laid-open patent publication No. 5-201747 tends to embed many photocatalytic particles in the binder layer, so that no ultraviolet radiation will reach and no smelly gas or the like will contact those photocatalytic particles, which thus will fail to perform a sufficient photocatalytic function.
Another known process of forming a photocatalytic layer is an alkoxide process disclosed in Japanese laid-open utility model publication No. 5-7394. According to the disclosed process, a photocatalytic layer is formed by coating a base of glass with a titanium alkoxide, drying the coated titanium alkoxide, and thereafter firing the titanium alkoxide at 100° C. An organic material in water is decomposed when an ultraviolet radiation is applied to the photocatalytic layer.
The alkoxide process is excellent in that it can form a thin film at a relatively low temperature, and is effective where a substance such as Pyrex glass or quartz glass which is not softened at temperatures up to about 500° C. is used as the material of the base. If a substance such as soda glass having a low melting point is used as the material of a base, then the base is softened already at a temperature at which a thin film is formed, and a formed thin photocatalytic film is embedded in the base, with the result that no light will reach the photocatalytic layer, which will fail to perform photocatalytic functions.
According to Japanese laid-open patent publication No. 1-288321, a TiO
2
sol is sprayed over ceramic paper of a fibrous material and thereafter heated at a temperature ranging from 400 to 700° C., and thereafter an SnO
2
sol is sprayed and heated at a temperature ranging from 400 to 700° C., thus forming a photocatalytic film capable of oxidizing and decomposing aldehydes.
In the process disclosed in Japanese laid-open patent publication No. 1-288321, the entire surface of the film is covered with SnO
2
which is less active than TiO
2
, and attempts to increase the strength of the film are liable to cause cracks. Specifically, as shown in FIG.
1
(
a
) of the accompanying drawings, when a sol containing TiO
2
particles
101
is coated on the surface of a tile
100
and then heated (fired), a crack
102
develops as shown in FIG.
1
(
b
) of the accompanying drawings. The crack is considered to occur because a phase transition to a rutile structure brings about a volume shrinkage (a density increase) and also because whereas the distance between TiO
2
particles
101
is L
0
as shown in FIG.
2
(
a
) of the accompanying drawings before being fired, the distance is reduced to L
1
(L
1
<L
0
) as shown in FIG.
2
(
b
) of the accompanying drawings due to volumetric diffusion of the particles into each other after being fired into the rutile structure.
Japanese patent publication No. 4-46609 discloses a method of purifying an odor in the air in the passenger's compartment of a vehicle by decomposing or modifying a smelly substance contained in the odor. Specifically, light is applied to a solid semiconductor photocatalyst in which a metal or a metal oxide is carried by a semiconductor, and the air to be purified in the passenger compartment is brought into contact with the solid semiconductor photocatalyst for decomposing or modifying the smelly substance contained in the odor due to a photochemical reaction.
However, when a base with its surface coated with a photocatalyst is used in contaminated water or an outer wall, dirt tends to be deposited on the photocatalyst owing to high-molecular substances, dust particles, and bacteria that are contained in the atmospheric air or water. Depending on the type of the dirt, the photocatalytic function may be lowered by the deposited dirt.
One solution to the reduction in the photocatalytic function due to deposited dirt is disclosed in Japanese patent publication No. 6-7905. Japanese patent publication No. 6-7905 reveals a deodorizing apparatus comprising a photocatalytic layer of semiconductor, an ultraviolet lamp and a heater disposed in confronting relation to the photocatalytic layer, and an air blower. The photocatalytic layer or the heater, or the photocatalytic layer and the heater are moved for sequentially heating the photocatalytic layer in its entirety. When the photocatalytic layer is heated to a temperature close to 400° C., dirt of high-molecular substances, dust particles, and the like is removed, and the photocatalytic layer is regenerated.
The above arrangement of regenerating the photocatalytic layer is practically difficult to use on a member of an installation disposed inside a room. Therefore, a more radical solution is desired not to remove dirt deposited on the photocatalytic layer but to prevent dirt from being deposited on a photocatalytic layer or to prevent a photocatalytic layer from lowering its photocatalytic function even with dirt deposited thereon.
Japanese patent publication No. 6-7906 shows a process of applying light with high ultraviolet intensity to a photocatalyst to remove an odor in a home or an office. With this process of applying light with high ultraviolet intensity, however, the odor is decomposed at a different rate depending on the structure of the photocatalyst. Furthermore, though the base which carries the photocatalyst has sufficient mechanical strength if the base is porous and impregnated with the photocatalyst according to the process disclosed in the publication, no sufficient mechanical strength will be achieved if the base is made of a material which is not porous such as glazed tile or relatively dense ceramic.
TiO
2
is available in different crystallized forms including anatase, brucite, and rutile. The anatase structure is better in photoactivity than the other crystallized forms. It has been reported in the magazine “Surface”, 1987, vol. 25 that the photoactivity of rutile TiO
2
is improved by carrying a metal such as Pt, Ag, or the like. However, rutile TiO
2
does not have sufficient odor removal rate, density, and adhesiveness. If Ag or AgO is used as a metal to be added, then the resultant photocatalyst is not suitable for use on tile
Chikuni Makoto
Hayakawa Makoto
Kimura Tamon
Kitamura Atsushi
Kojima Eiichi
Blackman William D.
Carrier Joseph P.
Carrier Blackman & Associates P.C.
Copenheaver Blaine
Kruer Kevin R.
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