FR3102245A1 - Marking product with rapid identification removable by aerosols and its manufacturing process, process for using such a product - Google Patents

Abstract

The present invention relates to a labeling product with double identification in the form of an aqueous solution offering a homogeneous distribution of the labeling and comprising at least one first marker with rapid identification and detectability under UV lamp, at least one second coding and identification marker. precise source, the labeling product comprising a third marker, the third marker being stable over time, UV and / or water, associated with the first marker and the second marker so as to identify the second marker so that a sample marked with said product can be sent to the appropriate laboratory identifying precisely the source thanks to the type of coding marking.

Description

Aerosol-removable rapid identification marking product and process for its manufacture, process for using such a product

TECHNICAL FIELD AND SUBJECT OF THE INVENTION

The invention relates to the field of coded marking products in the form of a solution dispensable by aerosols for materials, goods, objects or people.

STATE OF THE ART

Devices allowing the marking of places, goods and people in the form of sprayable solutions are well known from the prior art. These solutions by vaporization of marking of materials or objects bring a discriminating character to the object or to the material or to the person or to the place marked, a coding system being inserted during their manufacture guaranteeing their uniqueness, and their use generating traces that are exploited as a piece of physical evidence in a criminal trial.

There are different types that can be separated into two categories: fast-identifying and slow-identifying. The detection of the presence of a marking is carried out by the use of an ultraviolet lamp (UV) in the case of rapid identification, and the reading of the DNA code of the products is carried out in the laboratory and involves different techniques. analytical in the case of slow identification.

In rapid identification marking solutions, the marking produced is colorless and invisible in natural light but becomes fluorescent under UV lighting, thus allowing rapid detection. There are, for example, solutions based on color marking molecules such as fluorochromes. A fluorochrome or fluorophore is a chemical substance capable of emitting fluorescence light after excitation. These are substances composed of several conjugated aromatic rings or even planar and cyclic molecules which have one or more π bonds.

The disadvantage of these solutions is the non-homogeneous distribution of the fluorochromes during their spraying. Indeed, such solutions are generally aqueous, but in general, fluorochromes are not soluble in water although some are dispersible. Consequently, in the absence of agitation, such a labeling solution does not allow a homogeneous distribution of the fluorochromes in the aqueous solution.

In addition, this type of marking is limited in number and precision due to the limitation of the light spectrum.

The other category of slow identification tagging solution includes aqueous DNA tag tagging solutions, code search is achievable on skin, clothes, property, even in the vehicle or at the home of the presumed author and makes it possible to associate a person or an object with a specific place or fact. This type of marking has the disadvantage of requiring the sequencing of the label in order to formally identify the marked object or individual or product, which does not allow direct identification. Nevertheless, due to the almost unlimited quantity of information that a DNA sequence can contain by the variation of the nucleic bases, this type of marking allows a fine and precise identification of the object or the individual or the material. Indeed, DNA marking makes it possible to establish a certain link between an individual and his presence at the scene of a crime. In addition, by means of DNA amplification techniques it is possible to detect a tiny trace, which makes it possible to have a significant longevity of the marking. However, if the mark is too small, then there is a risk of losing the DNA trace.

In addition, these two types of markings also have the disadvantage of being sensitive to UV radiation and of degrading over time, thus leading to a risk of loss of evidence. Indeed, illumination with a UV lamp initially indicates that a suspect or suspicious object has been sprayed by a marking system and makes it possible to locate visual evidence, however this visual evidence is questionable. In a second step, the taking of a sample in order to carry out DNA analyzes to identify the proof makes it possible to validate the visual proof. The evidence thus produced represents a unique signature, because each DNA code is unique and the reading of the DNA code proves that an individual was indeed at the scene of an offence, the evidence constituted is criminal evidence.

GENERAL PRESENTATION OF THE INVENTION

The object of the present invention is therefore to propose a marking product, making it possible to overcome at least some of the drawbacks of the prior art, by proposing an aqueous marking solution combining the two types of identification, with a homogeneous delivery during their implementation in the form of an aerosol, to which is added a uniform distribution, an intense and visible color from afar under illumination by the UV lamp, as well as additional detection during illumination at a length of particular wave in the visible thanks to a specific reader allowing to obtain a rapid confirmation in case of doubt, and this over a long period of time.

To this end, the invention relates to a dual identification marking product in the form of an aqueous solution offering a homogeneous distribution of the marking and comprising at least a first marker with rapid identification and detectability under a UV lamp, at least a second marker coding and with precise identification of the source, said marking product comprising a third marker, the third marker being stable over time, to UV and/or to water, associated with the first marker and with the second marker so as to identify the second marker so that a sample marked with said product can be sent to the appropriate laboratory, precisely identifying the source thanks to the type of coding marking.

According to one feature, the third label comprises at least one polycyclic aromatic hydrocarbon.

According to another feature, the polycyclic aromatic hydrocarbon is perylene.

According to another feature, the third label comprises at least one polycyclic aromatic heterocyclic compound.

According to another feature, the aromatic heterocyclic compound is coumarin.

According to another feature, the first marker comprises an amplifying agent.

According to another feature, the amplifier is a lanthanide complex.

According to another particularity, the third marker is a molecule emitting a color among the following colors: red, green, yellow, orange.

According to another feature, the third marker is detected by means of a portable detection device detecting the elements marked by fluorescence in the field.

According to another feature, the portable detection device uses filters.

According to another peculiarity, the filters are colored, with a color located in the upper part of the visible spectrum.

According to another feature, the first marker is: a fluorochrome, a fluorophore, a photoluminescent and/or fluorescent polymer, which may or may not be a nanoparticle or a mixture of these, and that this molecule is soluble or made soluble in the water.

According to another feature, the second coding marker comprises between 10 ¹² and 10 ²⁰ DNA molecules.

According to another feature, the marking product comprises a surface-active agent.

According to another feature, the surface-active agent is Polyoxyethylenesorbitan monolaurate.

Advantageously, another object of the application is an aerosol comprising a dual identification marking product in the form of an aqueous solution according to the invention.

Advantageously, the application also relates to the use of a dual identification marking product in the form of an aqueous solution according to the invention or an aerosol according to the invention in the marking of a material, although , object, or person.

Advantageously, the application also relates to the use of a dual identification marking product in the form of an aqueous solution according to the invention or an aerosol according to the invention, in a materials traceability system, objects, people; or in an anti-intrusion/anti-theft system making it possible to mark an individual entering without authorization into an enclosure equipped with an intrusion detection system and a mechanism allowing the dispersion of said aerosol.

Advantageously, the application also relates to a method for tracing a sample to which the marking product according to the invention has been applied, the method comprising the following steps:

Illumination of an area or part of the sample under UV radiation to locate invisible stains,

Illumination of invisible spots detected under UV radiation in the zone or part of the sample in the visible wavelength, by a portable detection device detecting directly in the field or on a sample taken in the field the elements marked by fluorescence to distinguish between the different tasks and determine those corresponding to the marking product,

Taking a sample of the detected marking product,

Certain identification of the type of coding marking of the sample thanks to the third marker,

Sending the sample to the laboratory identified by the third marker,

Analysis of the DNA code corresponding to the sample taken and comparison with a DNA code of the pre-recorded marking product.

DETAILED DESCRIPTION OF AN EMBODIMENT OF THE INVENTION

Many combinations can be envisaged without departing from the scope of the invention; the person skilled in the art will choose one or the other depending on the economic, ergonomic, dimensional or other constraints that he will have to respect.

In certain embodiments, the second so-called coding marker allows precise identification of the source thanks to a code present in the marker, for example a DNA tag. By "DNA tag" is meant any molecular sequence comprising an uninterrupted succession of nucleic bases. These can be chosen from the nucleic acid bases of DNA: adenine, cytosine, guanine and thymine, the nucleic acid bases of RNA: uracil, but also from analogous nucleic acid bases ( GNA, TNA, PNA) or xenonucleic acid (AXN) or any other molecule capable of forming a sequence with nucleic bases known to those skilled in the art. The DNA tag includes a sequence of at least 80 nucleic bases, preferably between 100 and 140 nucleic bases for optimal identification.

In certain embodiments, the first marker allows rapid identification under UV light thanks to a luminescent marker molecule present in the marker, for example and without limitation a fluorochrome, a fluorophore, a photoluminescent and/or fluorescent polymer, which can whether or not a nanoparticle or a mixture thereof. By "luminescent marker molecule" is meant any molecule allowing visual identification by the emission of a specific wavelength. By way of example, such a labeling molecule may be a fluorochrome, a photoluminescent and/or fluorescent polymer, which may or may not be a nanoparticle. In some embodiments, a combination of luminescent marker molecules of different type or color may be used.

Whatever the embodiment, the luminescent labeling molecule is a molecule that is naturally soluble in water or that has been treated so that it becomes so, or brought into association with other substances to become so, such as agents of surface.

The general process for manufacturing a dual factor identification tagging solution including at least the following steps:

Prepare a first solution comprising DNA tags in a polar solvent;

Dilute the first solution with distilled water and optionally add a surfactant (surfactant);

Add a luminescent marker molecule;

Prepare a second solution comprising a polycyclic aromatic molecule in a polar solvent.

Add an amplifier.

In certain embodiments, at least two different polar solvents are combined.

In one embodiment and in order to obtain optimum labeling, it is desirable to use between 10 ¹² and 10 ²⁰ DNA molecules.

In one embodiment, the luminescent tag molecule can be a fluorochrome that may or may not bind DNA tags.

In a particular embodiment, when necessary, a surfactant or surfactant can be added to the solution, preferably Polyoxyethylenesorbitan monolaurate also called Tween 20 or Polysorbate 20. The use of such an agent allows a dispersion homogeneous of the luminescent labeling molecule.

Thus, such a marking product or solution allows two-factor identification.

In certain embodiments, the first marking is rapid with the luminescent marking molecule which makes it possible to quickly identify an individual, object or material brought into contact with the marking product.

In certain embodiments, the luminescent marker molecule is visible only after it has been activated, in order to prevent its presence from being visually detectable. Indeed, if the luminescent marking molecule was visible to the naked eye, the marked person would also see it and get rid of it immediately so as not to be accused.

In some embodiments, activation of the luminescent label molecule preferably occurs through exposure to a specific wavelength.

In certain embodiments, the addition of the amplifier allows a more homogeneous distribution and better photostability over time of the marking. Indeed, thanks to the amplifying the intensity of the detected color is increased the detection of the product is facilitated.

In certain embodiments, a sample to which the marking product has been applied is taken and placed under a portable detection device, for example and in a non-limiting manner an optical detector for detecting on a determined marking zone elements marked by fluorescence, said apparatus comprising at least one light source intended for the excitation of particles including a fluorophore function, the light source comprising at least one member for emitting a focused light beam consisting of a light-emitting diode or a laser , each emission member having a similar emission peak around a determined wavelength. The detection as well as the location of the marking highlighted by the third marker is fast and precise by means of the portable detection device detecting in the field the elements marked by fluorescence. Filters adapted to the emission spectrum of the third marker are placed on the device, these filters are of different colors in the upper part of the visible spectrum, such as for example and without limitation, red, yellow, green and orange, preferably red and orange.

In some embodiments, the amplifying provides an ease in particular to spot from further away thanks to the formation of clusters of intense color.

In some embodiments, the third marker provides additional security because it is not attacked and resists deterioration over time. Indeed, the marking product is non-hydrophilic and is capable of better mechanically resisting washing of traditional products, in particular those comprising rare earths. There is then a better resistance to wear of the marking product which ensures a greater probative force.

The risk of losing material and therefore traces to produce a sample whose DNA is to be analyzed is reduced.

The marking product according to the invention is therefore more stable over time, to UV and/or to water, it is more easily detectable and, in general, its use constitutes a more reliable process than the methods used until now. now.

In some embodiments, the second identification marker comprises a DNA tag, which is detected after sampling and characterized by a nucleic base sequence identification method known by those skilled in the art such as for example sequencing by hierarchical sequencing, sequencing by global method (Whole Genome Shotgun), sequencing by hybridization, high throughput sequencing (HTS), Ion Torrent sequencing, Pyrosequencing, sequencing by synthesis, sequencing by ligation. Identification by means of DNA is precise because it contains a unique code and therefore constitutes a unique signature.

The proof is therefore finally discovered after sending a sample to the laboratory and analyzing the DNA code via a decoding device.

In certain embodiments, such a dual-factor identification and detection marking solution can be used in the form of an aerosol intended to be sprayed on a material, property, object or person in order to identify.

To do this, the prepared solution is pressurized by means of a gas, preferably a petroleum gas (a mixture of butane and propane), but any other gas that does not interact with the compounds of the solution can be used such as for example butane, propane, isobutane, dimethyl ether, nitrogen or a mixture thereof. Advantageously, by way of example, the petroleum gas is 30 to 50% to obtain an aerosol having between 10 and 13 bars of pressure, preferably 11 bars of pressure. With such pressure, the diffusion is optimal and the marking is homogeneous on the surface.

Such an aerosol can be used in a system for tracking materials, goods, objects or people.

Such an aerosol can also be used in an anti-intrusion/anti-theft system making it possible to mark an individual entering without authorization into an enclosure equipped with an intrusion detection system and a mechanism allowing the dispersion of said aerosol.

It will be readily understood from reading the present application that the features of the present invention, as generally, can be arranged and designed in a wide variety of different configurations. Thus, the description of the present invention is not intended to limit the scope of the invention, but merely represent selected embodiments.

Those skilled in the art will understand that the technical characteristics of a given embodiment can in fact be combined with characteristics of another embodiment unless the reverse is explicitly mentioned or it is obvious that these characteristics are incompatible. Moreover, the technical characteristics described in a given embodiment can be isolated from the other characteristics of this mode unless the reverse is explicitly mentioned.

It should be obvious to those skilled in the art that the present invention allows embodiments in many other specific forms without departing from the field defined by the protection sought, they should be considered by way of illustration and the The invention should not be limited to the details given above.

Claims (19)

Double identification marking product in the form of an aqueous solution offering a homogeneous distribution of the marking and comprising at least a first marker with rapid identification and detectability under a UV lamp, at least a second coding marker with precise identification of the source, characterized in that the marking product comprises a third marker, the third marker being stable over time, to UV and/or to water, associated with the first marker and with the second marker so as to identify the second marker so that a sample marked with said product can be sent to the appropriate laboratory, precisely identifying the source thanks to the type of coding marking. Marking product according to Claim 1, characterized in that the third marker comprises at least one polycyclic aromatic hydrocarbon. Marking product according to Claim 2, characterized in that the polycyclic aromatic hydrocarbon is perylene. Marking product according to Claims 1 to 3, characterized in that the third marker comprises at least one polycyclic aromatic heterocyclic compound. Marking product according to Claim 4, characterized in that the aromatic heterocyclic compound is coumarin. Marking product according to Claim 1, characterized in that the first marker comprises an amplifying agent. Marking product according to Claim 6, characterized in that the amplifier is a lanthanide complex. Marking product according to one of claims 1 to 7, characterized in that the third marker is a molecule emitting a color among the following colors: red, green, yellow, orange. Marking product according to Claim 8, characterized in that the third marker is detected by means of a portable detection device detecting the elements marked by fluorescence in the field. Marking product capable of being detected by a portable detection device according to claim 9, characterized in that the portable detection device uses filters. Marking product capable of being detected by a portable detection device according to claim 10, characterized in that the filters are colored, with a color lying in the upper part of the visible spectrum. Marking product according to claims 1 to 11, characterized in that the first marker is: a fluorochrome, a fluorophore, a photoluminescent and/or fluorescent polymer, which may or may not be a nanoparticle or a mixture of these, and that this molecule is soluble or made soluble in water. Marking product according to one of Claims 1 to 12, characterized in that the second coding marker comprises between 10¹²and 10²⁰DNA molecules. Marking product according to one of Claims 1 to 13, characterized in that it comprises a surface-active agent. Marking product according to Claim 14, characterized in that the surface-active agent is Polyoxyethylenesorbitan monolaurate. Aerosol comprising a dual identification marking product in the form of an aqueous solution according to one of the preceding claims. Use of a dual identification marking product in the form of an aqueous solution according to one of the preceding claims or of an aerosol according to the preceding claim in the marking of a material, property, object or person. Use of a dual identification marking product in the form of an aqueous solution according to one of the preceding claims or of an aerosol according to the preceding claim, in a system for the traceability of materials, objects, people; or in an anti-intrusion/anti-theft system making it possible to mark an individual entering without authorization into an enclosure equipped with an intrusion detection system and a mechanism allowing the dispersion of said aerosol. Method for tracing a sample
On which has been applied the marking product according to claims 1 to 15, capable of being detected by a portable detection device according to claims 10 and 11, used according to claims 17 and 18, the method comprising the following steps:
Illumination of an area or part of the sample under UV radiation to locate invisible stains,
Illumination of invisible spots detected under UV radiation in the zone or part of the sample, in the visible wavelength, by a portable detection device detecting directly in the field or on a sample taken in the field the elements marked by fluorescence to discriminate between the different spots and determine those corresponding to the labeling product,
Taking a sample of the detected marking product,
Certain identification of the type of coding marking of the sample thanks to the third marker,
Sending the sample to the laboratory identified by the third marker,
Analysis of the DNA code corresponding to the sample taken and comparison with a DNA code of the pre-recorded marking product.