Compositions – Inorganic luminescent compositions – Compositions containing halogen; e.g. – halides and oxyhalides
Reexamination Certificate
2000-12-07
2003-09-30
Koslow, C. Melissa (Department: 1755)
Compositions
Inorganic luminescent compositions
Compositions containing halogen; e.g., halides and oxyhalides
C252S30140R, C313S486000, C313S582000, C313S584000
Reexamination Certificate
active
06627112
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a phosphor suitable for vacuum ultraviolet excited light emitting devices such as a plasma display panel (hereinafter, referred to as “PDP”), a rare gas lamp and the like, and a vacuum ultraviolet device using said phosphor.
2. Description of the Related Art
Recently, there are frequent developments of a vacuum ultraviolet excited light emitting device having a mechanism for attaining light emission by exciting a phosphor with vacuum ultraviolet ray radiated by rare gas discharge. A typical example thereof is a development of PDP. PDP is noticed as a flat panel display which can replace for a cathode ray tube (CRT) since it enables a large scale and a thin display PDP is a display device constituted by placing a lot of fine discharge spaces (hereinafter, sometimes abbreviated as “display cell”) in the form of a matrix, and a discharge electrode is provided in each display cell and on the inner wall of each display cell, a phosphor is applied. In a space in each display cell, a rare gas such as He—Xe, Ne—Xe, Ar and the like is sealed, and by applying voltage on the discharge electrode, discharging of the rare gas occurs in the display cell, and vacuum ultraviolet ray is radiated. A phosphor is excited by this vacuum ultraviolet ray, and visible lights are generated. An image is displayed by light emission of phosphors in display cells at given positions of a display device. As the phosphor used in each display cell, phosphors emitting blue color, green color and red color, respectively, are used, and by applying these phosphors in the form of a matrix, full color display can be effected.
Further, there is, recently, a tendency of reduction of harmful mercury from the standpoint of an environmental problem, and there is a notice on a rare gas lamp in which light is emitted by exciting a phosphor by emitting vacuum ultraviolet ray by discharge only of a rare gas using no mercury.
Recently, there are a lot of developments on a phosphor which gives light emission by being excited by vacuum ultraviolet ray and the like radiated by rare gas discharge. For example, regarding PDP, BaMgAl
10
O
17
:Eu, Zn
z
SiO
4
:Mn and (Y,Gd)BO
3
:Eu are put into practical use as a blue phosphor, green phosphor and red phosphor, respectively. However, for improving properties of full color PDP, Improvements in brilliance, color purity, life and the like of a phosphor are desired.
SUMMARY OF THE INVENTION
An object of the present invention is to provide a phosphor for vacuum ultraviolet excited devices such as PDP and the like, having excellent light emitting efficiency, and a vacuum ultraviolet excited device using the same.
The present inventors have intensively studied for solving the above-mentioned problems, and resultantly, found that
a phosphor in which Eu or Tb is added for activation in a mother crystal system of M
1
M
2
M
3
O
4
(in the composition formula, M
1
represents at least one elements selected from Na and Li, M
2
represents at least one elements selected from Gd and Y, and M
3
represents at least one elements selected from Ge and Si.) is useful.
a phosphor in which an Eu
2+
ion is added for activation in a three-component mother crystal system of SrO—Al
2
O
3
—B
2
O
3
is useful, and
a phosphor in which Eu or Tb is added for activation in a mother crystal system of the general formula M
2
O
2
CN
2
(in the composition formula, M represents at least one elements selected from La, Y and Gd.) is useful, and have completed the present invention.
Namely, the present invention relates to the following (1) to (4).
(1) A phosphor for a vacuum ultraviolet excited light emitting device, obtained by adding Eu or Tb as an activating agent to a substrate comprising a compound represented by the general formula M
1
M
2
M
3
O
4
, wherein M
1
represents at least one elements selected from Na and Li, M
2
represents at least one elements selected from Gd and Y, and M
3
represents at least one elements selected from Ge and Si.
(2) A phosphor for a vacuum ultraviolet excited light emitting device, obtained by adding Eu as an activating agent to a substrate comprising a compound containing SrO, Al
2
O
3
and B
2
O
3
.
(3) A phosphor for a vacuum ultraviolet excited light emitting device, obtained by adding Eu or Tb as an activating agent to a substrate comprising a compound represented by the general formula M
2
O
2
CN
2
, wherein M represents at least one elements selected from La, Y and Gd.
(4) A vacuum ultraviolet excited light emitting device comprising a phosphor of any of the above-mentioned (1) to (3).
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS
The present invention will be illustrated in detail below.
First, a phosphor for a vacuum ultraviolet excited light emitting device, obtained by adding Eu or Tb as an activating agent to a substrate composed of a compound of the general formula M
1
M
2
M
3
O
4
(in the composition formula, M
1
represents one or more elements selected from Na and Li, M
2
represents one or more elements selected from Gd and Y, and M
3
represents one or more elements selected from Ge and Si.) will be illustrated.
For example, when an Eu ion (Eu
3+
) or a Tb ion (Tb
3+
) is added as an activating agent to a substrate composed of a compound represented by NaGdGeO
4
, a phosphor for a vacuum ultraviolet excited light emitting device, represented by the general formula NaGd
1-a
Eu
a
GeO
4
or NaGd
1-a
Tb
a
GeO
4
(wherein, 0.003≦a≦0.5) is preferable. Further, when Gd of NaGd
1-a
Eu
a
GO
4
or NaGd
1-a
Tb
a
GeO
4
is substituted by Y, it is preferable that 0.5 to 100 mol % of Gd is substituted by Y.
Further, a phosphor for a vacuum ultraviolet excited light emitting device of the present invention can be applied to a phosphor excited with ultraviolet ray, X ray and electron beam out of the vacuum ultraviolet range, and to a device using the same.
A method for producing a phosphor according to the present invention is not particularly restricted, and for example, the phosphor is produced by compounding phosphor raw materials to provide a given component composition, as described below. As the raw material of sodium and lithium, carbonates, hydroxides, halides, nitrates and the like having high purity (99% or more) can be used, as the raw material of gadolinium and yttrium, oxides, carbonates, hydroxides, halides, nitrates and the like having high purity (99% or more) can be used, and as the raw material of germanium and silicon, oxides, carbonates and the like can be used, each being decomposed at higher temperature to give an oxide.
As the raw material of europium and terbium which can be an activating agent for causing light emission in the phosphor, there can be used oxides having high purity (99% or more), or hydroxides, carbonates, nitrates, halides, oxalates and the like having high purity (99% or more) which can be decomposed at higher temperature to give an oxide.
These raw materials are mixed by using a mortar, ball mill, V shape mixer, stirring apparatus or the like, then, the mixture is calcined at temperatures in the range from 900° C. to 1100° C. for several hours to decades hours, to obtain a phosphor. When hydroxides, carbonates, nitrates, halides, oxalates and the like which can be decomposed at higher temperature to give an oxide are used as a raw material, it is also possible to effect temporary calcination at temperatures in the range from 600° C. to 800° C. before main calcination.
As the calcination atmosphere in this procedure, air or oxygen atmosphere is preferable. Also, a flux in appropriate amount may be added for promoting calcination reaction.
Further, a product obtained by the above-mentioned method is fractured by using a ball mill, jet mill or the like before being washed, and if necessary, classified. For further enhancing crystallinity of the resulted phosphor, re-calcination is conducted, if necessary.
Next, a phosphor for a vacuum ultraviolet excited light emitting device, which is a blue light emitting phosphor in which Eu i
Miyazaki Susumu
Ono Keiji
Toda Kenji
Koslow C. Melissa
Sughrue & Mion, PLLC
Sumitomo Chemical Company Limited
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