OA12477A - Anti-copy marking composition - Google Patents

Abstract

Anticopying marking composition comprises an organic material containing at least two luminescent compounds with different visible emission wavelengths when excited with light from a photocopier lamp, such that the color perceived by the photocopier sensors is different from that observed in daylight.

Description

1 O2477

The present invention relates to an anti-copy marking composition.

We know that with the constant progress of pho-tocopy in color, it is now possible to make photocopies whose colors are extremely faithful to the colors of the original document. This makes it possible for fraudsters to reproduce, in large numbers, documents whose circulation should normally remain under control, in particular banknotes.

Much research has been done to develop compositions that are not detectable in the light of the day, that is to say having a color that confronts with the color of the support when the document is analyzed in the light of day. The corresponding signs are of course not reproduced during the realization of a photocopy but the absence of this sign can be detected only by subjecting the document to a particular ray-ment, for example ultraviolet radiation.In the case of banknotes, there is therefore a risk that a good quality copy is confused with an original banknote when the person receiving the banknote does not have a counterfeit detector equipped with an ultraviolet lamp.

Furthermore, it is known that fluorescent materials having luminescence in a range of visible wavelengths are poorly reproduced by a photocopier. In order to defeat the color photocopy of original documents, various techniques have already been used, in particular the application on the document of a sign made with a composition exhibiting special effects, for example an absorption generating composition. of daylight a refracted radiation having a visible color (material color), and generating by daylight photoluminescence a radiation emitted having a color (light color) also visible in the light of day. These products are traditionally called "fluorescent daylight".

However, such pure fluorescent materials whose luminescence is sufficient to be directly perceived during a daylight examination are very small and are commonly used in the office to carry out text highlighting so that if such a material is used to make a sign it is easy for a fraudster to make a counterfeit that has all the appearances of an authentic document.

It has also been contemplated that a photoluminescent product be mixed with a non-photoluminescent product having a different color in the hope that the resultant color obtained in the photocopy would be different from the color obtained when copying the non-luminescent component alone. However, it has been found that such a composition causes practically no drift of color on the photocopied document, the main color being that of the non-photoluminescent component.

It is furthermore known from document EP-A-265 323 to produce a composition making it possible to carry out a security marking on a document, this composition comprising at least one fluorescent component and at least one phosphorescent component producing between them a cascadeluminose of to show different colors depending on whether the document is scanned in daylight, under ultraviolet light, or in the dark after undergoing ultraviolet radiation. However, this document does not envisage any search for an anti-aircraft effect. The phosphorescent component forming one of the elements of the light cascade is also PPO which has a very pale luminescence and therefore would not be lost by the sensors of a photocopier. 072477

An object of the invention is to provide a compo-sition of anticopy marking causing degradation of color during the making of a photocopy and whose reproduction is not easily achievable.

With a view to achieving this object, the invention provides an anticopic marking composition comprising an organic matrix in which photoluminescent components are incorporated, at least one of which has a visible material color in the light of daylight, this composition comprising at least one minus a first photoluminescent component having a luminescence in a first wavelength range perceivable by photocopier sensors when excited by a photocopier lamp, and at least a second photoluminescent component having luminescence in a second range; of wavelengths perceptible by the copiers of the photocopier when excited by a photocopier lamp, the second wavelength range being at least partially different from the first wavelength range and the luminescence of at leastl one of the components having sufficient intensity to be perceived by the sensors of the photocopier different from that obtained when the same component is exposed to daylight.

Thus, the mixing of different photo-luminescent components makes it difficult to reproduce the composition and because of the difference in intensity and illumination pattern of a photocopier lamp compared to daylight, the relative intensity light color (luminescence) in relation to the material color (refracted radiation) is different from that obtained during daylight exposure when the color reproduced in a photocopy is significantly different from that appearing on the original document during a daylight analysis. 4 012477

According to an advantageous version of the invention, the first photoluminescent component and the second photoluminescent component form a light cascade. The wavelength range of luminescence of the second component is thus modified so that the color drift is increased during the photocopy.

According to another advantageous aspect of the invention, the composition comprises a phosphorescent phosphor component. The luminescence which continues beyond the ex-quote by the photocopier lamp then causes the sensors of the photocopier an additional disturbance increasing the difficulty of color management by the photocopier.

According to a particular nonlimiting exemplary embodiment, the anticopic marking composition according to the invention comprises in an organic matrix formed, for example, by an acrylic resin binder and a photoluminescent melange representing approximately 20% by weight of the composition, the photoluminescent mixture comprising a part of silver-doped zinc sulphide, a copper-doped zinc sulphide fraction and a europium and samarium doped decalcium sulphide fraction.

In this mixture, the zinc sulfide doped with ar-gent is a fluorescent component, that is to say that saluminescence ceases immediately with the cessation of exci-tation and forms a luminous cascade with doped decalcium sulfide to europium and samarium, that is, part of the resulting luminescence of the silver-doped zinc sulphide (about 10%) corresponds to the calcium sulphide excitation spectra which is also a fluorescent component.

Copper-doped zinc sulphide is a phosphorescent component whose luminescence forms a par- tially light cascade with europium and samarium-doped calcium sulphide. 012477

The luminescence of silver-doped zinc sulfide is blue in color, the luminescence of copper-doped zinc sulphide is pale green, and the luminescence of calcium sulphide doped with europium and ammonium is red. When the composition is exposed to daylight, it appears pink and when a sign printed with this composition is reproduced by a photocopier, this sign appears yellow on the photo-copy.

Of course, the invention is not limited to the example of composition described and modifications can be made to its implementation without departing from the scope of the invention as defined by the claims.

In particular, although in the example described a phosphorescent component and a first fluorescent component form a luminous cascade with a second fluorescent component, it is possible to use light-emitting components which do not form a light cascade or only some of them. between them form a luminous cascade. It is also possible to produce a composition containing exclusively fluorescent components, for example by limiting the composition described above to a mixture of silver-doped zinc sulphide and europium doped decalcium sulphide. at the samarium. ~

In the example described, europium and samarium-doped calcium sulphide emits luminescence at a downward conversion, forming a luminous flux with silver-doped zinc sulphide, and in a rising conversion (conversion). an-ti-Stokes) from the infrared which are emitted in a significant way by the lamp of a photocopier. This upward con-version can be accentuated by using in addition neodymium-doped yttrium vanadate which is excited by ultraviolet and emits in the infrared and thus forms a second light cascade with calcium sulphide. It is also possible to use rare earth oxysulphides which have a downward or upward conversion depending on the dopant used.

Claims (7)

Claims A copy-copying composition comprising an organic material in which photoluminescent components, at least one of which is a visible color in the light of day, are incorporated, characterized in that it comprises at least one first photoluminescent component having a luminescence in a first visible wavelength range when excited by a photocopier lamp, and at least one second photoluminescent component having a luminescence in a second visible wavelength range when it is excited by a lamp of photocopier, the second wavelength range being at least partially different from the first range of wavelengths and the luminescence of at least one of the components having sufficient intensity to be perceived by the copiers of the photocopier according to a perception different from that obtained when the same component is exposed to the light of day. 2. Composition according to claim 1, character-ized in that the first photoluminescent component and the second photoluminescent component form a cascadelumineuse. 3. Composition according to claim 1, character-ized in that it comprises at least one phos-phorescent component. 4. Composition according to claims 2 and 3, characterized in that it comprises a phosphor-rescent component and a first fluorescent component forming a light flash with a second fluorescent component. 5. Composition according to claim 2, character-ized in that it comprises zinc doped with silver mixed with calcium sulphide doped with euro-pium or samarium, or a mixture of these dopants. I 012477 6. Composition according to claim 5, character-rized in that it further comprises zinc sulphidedeveloped copper. 7. A composition according to claim 5, caracté-5 laughing in that it further comprises neodymium-doped yttrium vanadate.