초록 ▼

This invention relates to an irreversible indicator for detecting oxidizing agents, or in particular an oxygen indicator, comprising at least one redox-sensitive dyestuff, at least one semiconductor material and at least one electron donor. This indicator is activated by exposure to light of about 2

This invention relates to an irreversible indicator for detecting oxidizing agents, or in particular an oxygen indicator, comprising at least one redox-sensitive dyestuff, at least one semiconductor material and at least one electron donor. This indicator is activated by exposure to light of about 200-400 nm. The invention also relates to UV light detector.

대표청구항 ▼

1. An indicator for detecting an oxidising agent comprising: at least one redox sensitive material which displays different visible properties in the oxidized and reduced forms;at least one electron donor wherein the at least one electron donor is a mild reducing agent, and wherein the at least one

1. An indicator for detecting an oxidising agent comprising: at least one redox sensitive material which displays different visible properties in the oxidized and reduced forms;at least one electron donor wherein the at least one electron donor is a mild reducing agent, and wherein the at least one electron donor is incapable of directly reducing the redox material; andat least one semiconductor material specifically sensitive to light of about 200-400 nm, the semiconductor material being selected from the group consisting of oxides of titanium, tin, tungsten, zinc, and mixtures thereof, wherein the redox sensitive material, electron donor, and semi-conductor material are in intimate contact with each other, and wherein upon irradiation of said semiconductor material by light of about 200-400 nm an electron is donated by the electron donor to the semiconductor material which in turn provides an electron to the redox sensitive material causing the redox sensitive material to become reduced, and wherein upon exposure to an oxidizing agent, the indicator irreversibly changes color. 2. An indicator according to claim 1 wherein the indicator is capable of detecting an oxidising agent in a gaseous state. 3. An indicator according to claim 1 wherein the indicator is capable of detecting the presence of oxygen. 4. An indicator according to claim 1 wherein the indicator is in the form of a tablet, pellet, plastic film. 5. An indicator according to claim 1 wherein the indicator comprises an ink that is printed onto a substrate in the form of a label, LOGO or text. 6. An indicator according to claim 1 wherein the redox sensitive material is a dye selected from the group consisting of a thiazine dyestuff, an oxazine dyestuff, an azine dyestuff, a triphenylmethane dyestuff, an indophenol dyestuff, an indigo dyestuff, viologen and mixtures thereof. 7. An indicator according to claim 1 wherein the electron donor is selected from any of an amine, a reducing saccharide, a readily oxidisable polymer, and an anti-oxidant. 8. An indicator according to claim 1 wherein the indicator comprises a binder for binding the redox sensitive material, electron donor material, and semi-conductor material in intimate contact with each other, said binder being selected from the group consisting of polymeric material of gelatin, hydroxyethyl cellulose (HEC), polyvinyl alcohol (PVA), ethyl cellulose (EC), cellulose acetate (CEA), polypyrolidone (PVP), polyethylene oxide, and polymethylmethacrylate (PMMA). 9. An indicator according to claim 1 wherein the indicator is attached to at least one inert material, selected from the group consisting of glass, paper, fabric, ceramic and metal. 10. An indicator according to claim 1 wherein the indicator is in the form of an ink. 11. An indicator according to claim 1 wherein the indicator comprises a cover having a very low oxidizing agent permeability which has the effect of preventing the color change of the UV-light activated indicator upon exposure to an oxidizing agent. 12. An indicator according to claim 11 wherein the cover comprises any of the following: PET, EVOH, PVDC or regenerated cellulose. 13. An indicator for indicating exposure to air using an oxidising agent comprising: at least one redox sensitive material which displays different visible properties in the oxidized and reduced forms; at least one electron donor wherein the at least one electron donor is a mild reducing agent, and wherein the at least one electron donor is incapable of directly reducing the redox material; andat least one semiconductor material specifically sensitive to light of about 200-400 nm, the semiconductor material being selected from the group consisting of oxides of titanium, tin, tungsten, zinc, and mixtures thereof,wherein a color change in the indicator indicates exposure to light of about 200-400 nm. 14. An indicator according to claim 1 wherein the electron donor is selected from the group consisting of NaEDTA, TEOA, glucose, fructose, polyvinyl alcohol, ascorbic and citric acid. 15. An indicator for detecting an oxidising agent comprising: at least one redox sensitive material which displays different visible properties in the oxidized and reduced forms;at least one electron donor wherein the at least one electron donor is a mild reducing agent, and wherein the at least one electron donor is incapable of directly reducing the redox material; andat least one semiconductor material specifically sensitive to light of about 200-400 nm, the semiconductor material being selected from the group consisting of oxides of tin, tungsten, zinc, and mixtures thereof, wherein the redox sensitive material, electron donor, and semi-conductor material are in intimate contact with each other, and wherein upon irradiation of said semiconductor material by light of about 200-400 nm an electron is donated by the electron donor to the semiconductor material which in turn provides an electron to the redox sensitive material causing the redox sensitive material to become reduced.