Compositions – Getters or gas or vapor generating materials for electric...
Reexamination Certificate
2000-12-28
2002-08-20
Anthony, Joseph D. (Department: 1714)
Compositions
Getters or gas or vapor generating materials for electric...
C252S184000, C252S189000, C252S182200, C252S182230, C252S182340, C252S964000, C510S100000, C436S167000, C436S128000, C436S126000, C436S130000, C422S083000, C422S088000, C422S051000, C422S051000, C422S051000, C422S051000
Reexamination Certificate
active
06436311
ABSTRACT:
FIELD OF THE INVENTION
The present invention relates to a sampling material for a carbonyl compound used for capturing a carbonyl compound in a gas such as formaldehyde in air, and to a sampling cartridge for a carbonyl compound in a gas using the same.
TECHNICAL BACKGROUND
Recently, an influence of volatile organic compounds on environment is regarded as a problem. For example, caused by an airtight structure of houses, an influence of carbonyl compounds such as formaldehyde and the like diffused from building materials and furniture on housing environment and working environment is regarded as a social problem. For investigating countermeasures against such a problem, it is firstly necessary to measure correctly the amount of carbonyl compounds in air. Accordingly, development of a method which can measure the amount of carbonyl compounds such as formaldehyde in air in room and the like at a high sensitivity and at high accuracy is desired.
Currently, “aldehyde measuring cartridge” and the like prepared by packing a sampling material for a carbonyl compound in a column are commercially available for measuring the amount of an aldehyde such as formaldehyde and the like in air. As the sampling material for a carbonyl compound, for example, there is known one where a reagent capable of converting a carbonyl compound to a derivative thereof, such as 2,4-dinitrophenylhydrazine and the like, are supported on silica gel. The amount of carbonyl compounds in air can be detected by using such a sampling material for a carbonyl compound and “aldehyde measuring cartridge” packed with the sampling material, and by capturing carbonyl compounds in air by a reaction with a sampling material for a carbonyl compound in the cartridge, then, eluting the carbonyl compound derivative from the cartridge, and measuring the amount thereof.
However, the conventional “aldehyde measuring cartridge” does not have necessarily sufficient accuracy, and has a problem of storage stability and of reduction in accuracy and the like in storage for a long period of time. Further, when a carbonyl compound derivative captured by reacting a carbonyl compound with a reagent capable of converting a carbonyl compound to a derivative thereof is eluted, a reagent capable of converting a carbonyl compound to a derivative thereof which has not been reacted with the carbonyl compound is also eluted simultaneously. Consequently there is a problem that operations such as separation, removal and the like of the reagent capable of converting a carbonyl compound to a derivative thereof are necessary for quantitative analysis.
DISCLOSURE OF THE INVENTION
An object of the present invention is to provide a sampling material for a carbonyl compound in a gas which has a higher sensitivity than that of a conventional sampling material for a carbonyl compound, makes an analysis of high accuracy possible, is excellent in storage stability, and does not require, in analysis, operations such as separation, removal and the like of an unreacted reagent capable of converting a carbonyl compound to a derivative thereof. Particularly, the present invention provides a sampling material for a carbonyl compound which enables microanalysis of aldehyde compounds such as formaldehyde and the like in indoor or outdoor air.
The present inventor has found that a sampling material for a carbonyl compound where a reagent capable of converting a carbonyl compound to a derivative thereof is supported on a cation exchanger is suitable for the above-mentioned object, and that, by using this sampling material for a carbonyl compound, quantitative analysis of a carbonyl compound in a gas at a high sensitivity and at high accuracy becomes possible.
Namely, the present invention provides a sampling material for a carbonyl compound in a gas comprising a reagent capable of converting a carbonyl compound to a derivative thereof supported on a cation exchanger.
Also, the present invention provides a sampling cartridge for a carbonyl compound in a gas wherein a sampling material for a carbonyl compound in a gas comprising a reagent capable of converting a carbonyl compound to a derivative thereof supported on a cation exchanger is packed in a column.
The sampling material for a carbonyl compound in a gas of the present invention has excellent storage stability. Further, in use in analysis, a carbonyl compound derivative, namely, a reagent capable of converting a carbonyl compound to a derivative thereof which has been reacted with a carbonyl compound, can be eluted, with eluting little reagent capable of converting a carbonyl compound to a derivative thereof which has not been reacted with a carbonyl compound. Consequently, in analysis, the sampling material for a carbonyl compound in a gas of the present invention does not require operations such as separation, removal and the like of a reagent capable of converting a carbonyl compound to a derivative thereof. Therefore, quantitative analysis of a carbonyl compound is possible at simpler manner, a higher sensitivity and higher accuracy as compared with the conventional method.
The cation exchanger used in the present invention means a polymer substrate such as a resin, cellulose, silica gel and the like into which a cation exchanging group, namely, a group of which a counter ion is a cation, has been introduced. When the polymer substrate is a resin, namely, when a cation exchanger is a cation exchanging resin, examples of the cation exchanging group include a sulfonic group, carboxyl group and the like. Particularly, a strong acidic cation exchanging resin of a sulfonic acid type is preferable. When the polymer substrate is a resin, the resin is not particularly restricted. Although styrene-based resins such as crosslinked polystyrene, for example, a copolymer of styrene with divinylbenzene, are preferred, an acrylic acid-based, methacrylic acid-based resin and the like may also be used. When the polymer substrate is cellulose, namely, when a cation exchanging group is introduced into cellulose to provide a cation exchanger, examples of the cation exchanging group include a sulfoethyl group, phosphomethyl group, phosphate group, carboxymethyl group and the like. Particularly preferable are strong acidic exchangers into which a sulfoethyl group has been introduced. When the polymer substrate is silica gel, examples of the cation exchanging group include a benzensulfonic group, propylsulfonic acid, carboxyl group and the like. Particularly, those having benzenesulfonic group are preferable.
As the reagent capable of converting a carbonyl compound to a derivative thereof used in the present invention, for example, reagents capable of converting a carbonyl compound to a derivative thereof described in JP-B-2-54906 can be listed. Specific preferable examples of the reagent capable of converting a carbonyl compound to a derivative thereof include amino compounds such as O-substituted hydroxylamines, for example O-(2,3,4,5,6-pentafluorobenzyl)hydroxylamine and the like; aryl hydrazines, for example 4-nitrophenyl hydrazine, 2,4-dinitrophenyl hydrazine, 4-carboxyphenyl hydrazine, phenyl hydrazine, diphenyl hydrazine, 2-naphthyl hydrazine and the like; sulfonyl hydrazines, for example, 4-nitrobenzenesulfonyl hydrazine and the like; acyl hydrazines, for example, benzoyl hydrazine, 4-nitrobenzoyl hydrazine, 4-chlorobenzoyl hydrazine, 3-chlorobenzoyl hydrazine, 4-bromobenzoyl hydrazine and the like; and semicarbazides such as phenylsemicarbazide, tolylsemicarbazide, 3,5-dinitrophenylsemicarbazide, 1-naphthylsemicarbazide, 2-naphthylsemicarbazide and the like. Particularly, O-(2,3,4,5,6-pentafluorobenzyl)hydroxylamine and 2,4-dinitrophenylhydrazine are preferable.
A method for producing a sampling material for a carbonyl compound of the present invention is not particularly restricted.
For example, it can be obtained by dissolving a reagent capable of converting a carbonyl compound to a derivative thereof in a suitable organic solvent, mixing the solution and a cation exchanger, then, removing the organic solvent, and if neces
Harimoto Takashi
Hirose Shinji
Kitasaka Kazuya
Anthony Joseph D.
Birch & Stewart Kolasch & Birch, LLP
Sumika Chemical Analysis Service, Ltd.
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