RU2679535C1 - Photosensitive security mark for hardware identification - Google Patents

Abstract

FIELD: chemistry.SUBSTANCE: invention relates to objects identification and can be used to improve the reliability of authenticity control and anti-counterfeit protection of various valuable documents and products by applying a photosensitive identification mark based on bacteriorhodopsin. Mark contains a substrate with an adhesive composition for fixing the layer, on the inner surface of which a layer of a photochromic composition in the form of a gelatin film with embedded – suspended – bacteriorhodopsin is fixed by means of the adhesive composition having thickness of 3÷10 microns, and a protective layer of an optically transparent film easily destructible attached to the substrate and to the layer of the photochromic composition by means of the optically transparent adhesive, in the following ratio of components of the photochromic composition, parts by wt.: bacteriorhodopsin 0.2÷0.8; gelatin 75÷95.EFFECT: photosensitive security mark for hardware identification is proposed.6 cl, 1 dwg

Description

The invention relates to the field of verification of the identity or authenticity of an object and can be used to increase the reliability of hardware (instrument) authentication and protection against falsification of various valuable documents and products by applying a photosensitive identifying tag based on bacteriorhodopsin.

Bacteriorhodopsin is a photosensitive protein used as a photochromic material, which is obtained from halobacteria Halobacterium salinarum, into the cell membranes (purple membranes) of which it is embedded. The main property of bacteriorhodopsin is used in the technique, which is the presence of a photochemical cycle: after absorption of a quantum of light, the bacteriorhodopsin molecule passes through a cyclic sequence of states and spontaneously returns to its original form. Moreover, in accordance with the cyclic change in the state of the bacteriorhodopsin molecules, light-induced cyclic changes in the optical-physical characteristics — refractive indices and absorption — occur. The spectral sensitivity of bacteriorhodopsin lies in the optical range. The maximum absorption in the initial state of the bacteriorhodopsin molecules in the form of BR570 corresponds to a wavelength of 570 nm. The ground intermediate state of M412 has an absorption maximum at a wavelength of 412 nm. After irradiation with light with a wavelength of 570 nm, the purple color of the state of the bacteriorhodopsin molecules in the form of BR570 transforms into a yellow (tan) color of the M412 state with low absorption at a wavelength of 570 nm. As a result, absorption in the region of green light decreases, the medium becomes more transparent - enlightened (discolored). As a result of light exposure with a wavelength of 412 nm, the bacteriorhodopsin molecules again go into the BR570 state and a purple color appears. This well-known photochromic property of bacteriorhodopsin (RU 2329155 C2, G07D 7/00, 2008; RU 2244923 C2, G07D 7/00, 2004; DE 19914702.7 dated 03/31/1999) was used in various technical solutions for photochromic marking and authentication of various objects.

A marking method is known from the prior art for authenticating and protecting an object from counterfeiting by applying a photosensitive adhesive layer containing bacteriorhodopsin, which is provided with an optically transparent coating (RU 2329155 C2, G07D 7/00, 2008). The main disadvantage of the known solution is the difficulty in selecting components for adhesive layer, which limits its functionality.

It is also known to perform a photosensitive identification tag in the form of a photochromic layer containing bacteriorhodopsin deposited on a substrate, which is sealed in a pocket from a film of the GHQ-120TR type by hot lamination (GPM, Mylam 9) at a temperature of 90 to 140 ° C (RU 2244923 C2, G07D 7/00, 2004). However, the use of hot lamination in the manufacture of a photosensitive label degrades the photochromic properties of bacteriorhodopsin, which reduces the reliability of the control of the authenticity of the object and its protection against counterfeiting.

The invention is directed to the creation of a photosensitive protective tag with an increased duration of preservation of the photochromic properties of bacteriorhodopsin and high optical uniformity and optical density, which ensures high-quality reproducibility of the optical color effect obtained with additional external influence and, accordingly, effective hardware (instrument) identification and authentication of various objects.

The solution to this problem is provided by the fact that in the photosensitive protective label for hardware identification containing a photochromic layer with bacteriorhodopsin applied to the substrate, according to the invention, a layer of the photochromic composition in the form of a gelatin film with built-in-weighted bacterioriorhodopsin thickness is fixed on the inner surface of the substrate 3 ÷ 10 μm, and a protective layer of easily destructible upon removal of an optically transparent film attached to the substrate and to the photochromic layer composition by means of optically transparent glue, in the following ratio of the components of the photochromic composition, mass, h:

bacteriorhodopsin 0.2 ÷ 0.8; gelatin 75 ÷ 95.

In this case, an optical acrylic adhesive is used as an optically transparent adhesive.

Preferably, a low molecular weight copolymer of methyl methacrylate and butyl methacrylate in a ratio of 1 to 3 is used as an optical acrylic adhesive.

In addition, the transparency of the film of the protective layer in combination with optical acrylic adhesive in the visible optical range of not less than 70%.

In addition, the substrate may be provided with an external adhesive layer that provides adhesive strength to the surface of the protected object that is higher than the strength of the substrate material.

In this case, the outer adhesive layer of the substrate can be provided with an easily removable protective coating.

Alternatively, the surface of the protected object can be used directly as a substrate on which, by means of an adhesive composition, a layer of the photochromic composition is fixed in the form of a gelatin film with integrated - suspended - bacteriorhodopsin 3–10 μm thick, and a protective layer of an optically transparent film attached to the surface of the protected object and to the layer of the photochromic composition by means of optically transparent glue, with the stated ratio of the components of the photochromic composition.

The implementation of the photochromic layer in the claimed photosensitive protective label in the form of a gelatin film with built-in-suspended-bacteriorhodopsin with fragments of purple membranes 5 ÷ 250 nm 3 ÷ 10 μm thick in combination with the claimed composition of the components containing 0.2 ÷ 0.8 mass. including bacteriorhodopsin, 75 ÷ 95 mass. including gelatin, it provides both the uniformity and uniformity of the distribution of bacteriorhodopsin in the label layer and the duration of preservation of the photochromic properties of bacteriorhodopsin, as well as optical uniformity and high optical density with refractive and absorption indices necessary for optimal hardware (instrument) perception of the optical color effect, which ensures high-quality reproducibility of the optical color effect obtained with additional external influence and, accordingly, effective protection that from the falsification of various objects.

In addition, the presence of a protective layer of an optically transparent film, preferably polyvinyl chloride (PVC), attached to the substrate and to the layer of the photochromic composition by means of optical acrylic adhesive, the transparency of which in combination with optical acrylic adhesive in the visible optical range is at least 70%, provides high perception of the optical color effect, while the use of optical acrylic glue, providing adhesive strength of the connection of the protective layer to the surface layers and a photochromic composition layer above the strength of the film material of the protective layer, makes the protective layer easily destructible, which excludes the possibility of removing the photochromic layer with the claimed bacteriorhodopsin composition from an authentic object and applying it to a fake.

In addition, the presence on the substrate of an external adhesive layer that provides adhesion strength to the surface of the protected object is higher than the strength of the substrate material, makes the substrate easily destroyed when you try to remove the mark from an authentic object, which excludes the possibility of applying it to a fake, and the presence on the external adhesive layer of the substrate easily removable protective coating - the liner provides the possibility of long-term storage of the photosensitive identification mark separately from the protected object with outposts photochromic properties of bacteriorhodopsin claimed composition.

The drawing schematically shows a General view of the photosensitive security tags for hardware identification.

The photosensitive protective label for hardware identification is made in the form of a multilayer structure, including a substrate 1, for example, 10 × 10 mm in size (preferably made of PVC film or paper, including with cuts) with an external adhesive layer 2, providing adhesive bonding strength higher than the strength of the substrate material 1, on the inner surface of which by means of a layer of adhesive, preferred, acrylic composition 3, for example, acrylic primer 3M 94EF (see, for example, https://multimedia.3m.com/mws/mediawebserver?mwsId=SSSSSUUn_zu819g9Mx_GPx2Z5vVWW n17zHvu9l8Ub7SSSSSS--) or, for example, optical acrylic adhesive (https://oldmix.net/stati-i-obzory/item/232-klej-na-osnove-proizvodstvenykh-akrilovoj-i-metakrilovoj-kislot; or http: / /www.labor-microscopes.ru/tehnologii/opticheskie-klei/overview-of-optical-adhesives.html) a layer 4 of a photochromic composition with a thickness of 3 ÷ 10 μm containing 0.2 ÷ 0.8 masses is fixed. including bacteriorhodopsin and 75 ÷ 95 mass. including gelatin, which is made in the form of a gelatin film with integrated - suspended - bacteriorhodopsin formed by watering an aqueous suspension with fragments of purple membranes of bacteriorhodopsin 5 ÷ 250 nm and subsequent drying at a temperature of 22 ° C, and the protective layer 5 from easily destroyed when removed an optically transparent, preferably polyvinyl chloride (PVC) film, attached to the substrate 1 and to the layer 4 of the photochromic composition by means of a layer of optically transparent adhesive 6, preferably optical acrylic adhesive, for example , in the form of a low molecular weight copolymer of methyl methacrylate and butyl methacrylate in the ratio of 1 ÷ 3 (https://oldmix.net/stati-i-obzory/itern/232-klei-na-osnove-proizvodstvenykh-akrilovoj-i-metakrilovoj-kislot; http: //www.labor-microscopes.ru/tehnologii/opticheskie-klei/overview-of-optical-adhesives.html). which ensures the strength of the adhesive joint is higher than the strength of the material of the protective layer 5.

Moreover, the transparency of the film of the protective layer 5 together with the layer of optical acrylic adhesive 6 in the visible optical range is at least 70%.

In addition, in the manufacture of the label, the outer adhesive layer 2 of the substrate 1, for example, in the form of acrylic adhesive (https://oldmix.net/stati-i-obzorv/item/232-klei-na-osnove-proizvodstvenykh-akrilovoj-i- metakrilovoj-kislot; https://www.labor-microscopes.ru/tehnologii/opticheskie-klei/overview-of-optical-adhesives.html) can be equipped with an easily removable protective coating - a liner, for example, in the form of a glossy paper base (not shown in the drawing), which provides the possibility of long-term storage of the photosensitive identifying tags separately from the protected object.

Alternatively, the surface 7 of the protected object can be used directly as the substrate 1, on which, by means of the adhesive composition 3, a layer 4 of the photochromic composition is fixed in the form of a gelatin film with built-in-suspended-bacteriorhodopsin and a modifier of bacteriorhodopsin properties with a thickness of 10 ÷ 30 μm, and a protective layer 5 of an optically transparent film attached to the surface of the protected object and to the layer of the photochromic composition by means of optically transparent glue 6, with the claimed ratio of components otohromnoy composition.

The claimed label is made in the form of a multilayer structure by serial connection - gluing on the substrate 1 layer 4 of the photochromic composition and the protective layer 5.

The claimed photosensitive identification tag for hardware authentication and protection of the object from counterfeiting is used as follows.

The protective coating of the liner is removed from the outer adhesive layer 2 of the substrate 1 and the label is attached using the outer adhesive layer 2 to the protected object 7. Moreover, since the adhesive strength of the substrate 1 by the outer acrylic adhesive layer 2 to the surface of the protected object 7 is selected above the strength of the substrate material 1, and the adhesive strength of the connection of the protective layer 5 by means of optical acrylic adhesive 6 with the surface of the substrate 1 and the layer 4 of the photochromic composition is firmly selected above ti film material of the protective layer 5, then when trying to remove labels from the surface of the protected object 7 will destroy the substrate 1 and / or the protective layer 5 and, accordingly, the most tags in general.

Example 1

The photosensitive protective label includes a 3M 7613T white vinyl substrate 1, attached using an external acrylic adhesive layer 2 to the protected object 7, on the inner surface of which a photochromic composition layer 4 with a thickness of 10 μm and a size is fixed with an acrylic adhesive composition 3 - acrylic primer 3M 94EF 10 × 10 mm in the form of a gelatin film with built-in - suspended - bacteriorhodopsin with fragments of purple membranes 5 ÷ 6 nm in size, containing 0.2 mass. including bacteriorhodopsin; 75 mass. h., and a protective layer 5 of optically transparent vinyl Lintec TE (b) 50C PAT1 8K, attached to the substrate 1 and to the layer 4 of the photochromic composition by means of optical acrylic adhesive 6 with a transparency of 72% in the visible optical range.

In scattered daylight, the photosensitive layer 4 of the photochromic composition with a uniform distribution of bacteriorhodopsin has a purple color. Hardware identification of the object is carried out when a photochromic transition in bacteriorhodopsin is initiated by exposing the label to external radiation of an LED at a wavelength of 560 nm and detecting changes in optical density at a wavelength of 560 nm using a photodetector. In this case, a decrease in the optical density of the photochromic composition of the label as compared with the initial value indicates the authenticity of the protective identifying label and, accordingly, the authenticity of the object.

Example 2

The light-sensitive protective label includes an ORACAL® 820 Safety Vinyl white substrate 1, attached using an external acrylic adhesive layer 2 to the protected object 7, on the inner surface of which a layer 4 of a photochromic composition 10 mm thick is fixed with an acrylic adhesive composition 3 - acrylic primer 3M 94EF microns and a size of 10 × 10 mm in the form of a gelatin film with built-in-suspended-bacteriorhodopsin with fragments of purple membranes 15 ÷ 20 nm in size, containing 0.8 wt. including bacteriorhodopsin; 75 mass. including gelatin, and the protective layer 5 of optically transparent vinyl Lintec TE (b) 50C PAT1 8K, attached to the substrate 1 and to the layer 4 of the photochromic composition by means of optical acrylic adhesive 6 with a transparency of 72% in the visible optical range.

In scattered daylight, the photosensitive layer 4 of the photochromic composition with a uniform distribution of bacteriorhodopsin has a purple color. Hardware identification of the object is carried out when a photochromic transition in bacteriorhodopsin is initiated by exposing the label to external radiation of an LED at a wavelength of 560 nm and detecting changes in optical density at a wavelength of 560 nm using a photodetector. In this case, a decrease in the optical density of the photochromic composition of the label as compared with the initial value indicates the authenticity of the protective identifying label and, accordingly, the authenticity of the object.

Example 3

The photosensitive protective label includes a 3M 7613T white vinyl substrate 1, attached using an external acrylic adhesive layer 2 to the protected object 7, on the inner surface of which a photochromic composition layer 4 with a thickness of 5 μm and a size of 4 μm is fixed using an acrylic adhesive composition 3 - acrylic primer 3M 10 × 10 mm in the form of a gelatin film with integrated - suspended - bacteriorhodopsin with fragments of purple membranes 115–140 nm in size, containing 0.8 wt. including bacteriorhodopsin; 95 mass. including gelatin, and the protective layer 5 of optically transparent vinyl Lintec TE (b) 50C PAT1 8K, attached to the substrate 1 and to the layer 4 of the photochromic composition by means of optical acrylic adhesive 6 with a transparency of 72% in the visible optical range.

In scattered daylight, the photosensitive layer 4 of the photochromic composition with a uniform distribution of bacteriorhodopsin has a purple color. Hardware identification of the object is carried out when a photochromic transition in bacteriorhodopsin is initiated by exposing the label to external radiation of an LED at a wavelength of 560 nm and detecting changes in optical density at a wavelength of 560 nm using a photodetector. In this case, a decrease in the optical density of the photochromic composition of the label as compared with the initial value indicates the authenticity of the protective identifying label and, accordingly, the authenticity of the object.

Example 4

The photosensitive protective label includes a 3M 7613T white vinyl substrate 1, attached using an external acrylic adhesive layer 2 to the protected object 7, on the inner surface of which a photochromic composition layer 4 with a thickness of 10 μm and a size is fixed with an acrylic adhesive composition 3 - acrylic primer 3M 94EF 10 × 10 mm in the form of a gelatin film with integrated - suspended - bacteriorhodopsin with fragments of purple membranes 130 ÷ 150 nm in size, containing 0.2 mass. including bacteriorhodopsin; 95 mass. including gelatin, and the protective layer 5 of optically transparent vinyl Lintec TE (b) 50C PAT1 8K, attached to the substrate 1 and to the layer 4 of the photochromic composition by means of optical acrylic adhesive 6 with a transparency of 72% in the visible optical range.

In scattered daylight, the photosensitive layer 4 of the photochromic composition with a uniform distribution of bacteriorhodopsin has a purple color. Hardware identification of the object is carried out when a photochromic transition in bacteriorhodopsin is initiated by exposing the label to external radiation of an LED at a wavelength of 560 nm and detecting changes in optical density at a wavelength of 560 nm using a photodetector. In this case, a decrease in the optical density of the photochromic composition of the label as compared with the initial value indicates the authenticity of the protective identifying label and, accordingly, the authenticity of the object.

Example 5

The photosensitive protective label includes a substrate 1 of white paper with a density of 80 g / cm ³ , on the inner surface of which, using an acrylic adhesive composition 3 — acrylic primer 3M 94EF, a layer 4 of a photochromic composition with a thickness of 3 μm and a size of 10 × 10 mm in the form of a gelatin film is fixed with integrated - suspended - bacteriorhodopsin with fragments of purple membranes 25 ÷ 30 nm, containing 0.5 mass. including bacteriorhodopsin; 85 mass. h., and a protective layer 5 of optically transparent vinyl Lintec TE (b) 50C PAT1 8K, attached to the substrate 1 and to the layer 4 of the photochromic composition by means of optical acrylic adhesive 6 with a transparency of 72% in the visible optical range.

In scattered daylight, the photosensitive layer 4 of the photochromic composition with a uniform distribution of bacteriorhodopsin has a purple color. Hardware identification of the object is carried out when a photochromic transition in bacteriorhodopsin is initiated by exposing the label to external radiation of an LED at a wavelength of 560 nm and detecting changes in optical density at a wavelength of 560 nm using a photodetector. In this case, a decrease in the optical density of the photochromic composition of the label as compared with the initial value indicates the authenticity of the protective identifying label and, accordingly, the authenticity of the object.

Example 6

The light-sensitive protective label includes an ORACAL® 820 Safety Vinyl white substrate 1, attached using an external acrylic adhesive layer 2 to a protected object 7, on the inner surface of which a layer 4 of a photochromic composition with a thickness of 8 is fixed with an acrylic adhesive composition 3 - acrylic primer 3M 94EF μm and a size of 10 × 10 mm in the form of a gelatin film with built-in-suspended-bacteriorhodopsin with fragments of purple membranes of 35 ÷ 50 nm, containing 0.4 mass. including bacteriorhodopsin; 80 mass. h., and a protective layer 5 of optically transparent vinyl Lintec TE (b) 50C PAT1 8K, attached to the substrate 1 and to the layer 4 of the photochromic composition by means of optical acrylic adhesive 6 with a transparency of 72% in the visible optical range.

In scattered daylight, the photosensitive layer 4 of the photochromic composition with a uniform distribution of bacteriorhodopsin has a purple color. Hardware identification of the object is carried out when a photochromic transition in bacteriorhodopsin is initiated by exposing the label to external radiation of an LED at a wavelength of 560 nm and detecting changes in optical density at a wavelength of 560 nm using a photodetector. In this case, a decrease in the optical density of the photochromic composition of the label as compared with the initial value indicates the authenticity of the protective identifying label and, accordingly, the authenticity of the object.

Example 7

The light-sensitive protective label includes an ORACAL® 820 Safety Vinyl white substrate 1, attached using an external acrylic adhesive layer 2 to a protected object 7, on the inner surface of which a layer 4 of a photochromic composition of 5 thickness 5 is fixed with an acrylic adhesive composition 3 - acrylic primer 3M 94EF μm and a size of 10 × 10 mm in the form of a gelatin film with built-in-suspended-bacteriorhodopsin with fragments of purple membranes of 165 ÷ 180 nm, containing 0.8 mass. including bacteriorhodopsin; 90 mass. including gelatin, and a protective layer 5 of optically transparent vinyl Lintec TE (b) 50C PAT1 8K, attached to the substrate 1 and to the layer 4 of the photochromic composition by means of optical acrylic adhesive 6 with a transparency of 71% in the visible optical range.

In scattered daylight, the photosensitive layer 4 of the photochromic composition with a uniform distribution of bacteriorhodopsin has a purple color. Hardware identification of the object is carried out when a photochromic transition in bacteriorhodopsin is initiated by exposing the label to external radiation of an LED at a wavelength of 560 nm and detecting changes in optical density at a wavelength of 560 nm using a photodetector. In this case, a decrease in the optical density of the photochromic composition of the label as compared with the initial value indicates the authenticity of the protective identifying label and, accordingly, the authenticity of the object.

Example 8

The photosensitive protective label includes a 3M 7613T white vinyl substrate 1, attached using an external acrylic adhesive layer 2 to the protected object 7, on the inner surface of which a photochromic composition layer 4 with a thickness of 9 μm and a size of 4 μm is fixed using an acrylic adhesive composition 3 - acrylic primer 3M 10 × 10 mm in the form of a gelatin film with integrated - suspended - bacteriorhodopsin with fragments of purple membranes 220–250 nm in size, containing 0.5 wt. including bacteriorhodopsin; 85 mass. including gelatin, and a protective layer 5 of optically transparent vinyl Lintec TE (b) 50C PAT1 8K, attached to the substrate 1 and to the layer 4 of the photochromic composition by means of optical acrylic adhesive 6 with a transparency of 71% in the visible optical range.

In scattered daylight, the photosensitive layer 4 of the photochromic composition with a uniform distribution of bacteriorhodopsin has a purple color. Hardware identification of the object is carried out when a photochromic transition in bacteriorhodopsin is initiated by exposing the label to external radiation of an LED at a wavelength of 560 nm and detecting changes in optical density at a wavelength of 560 nm using a photodetector. In this case, a decrease in the optical density of the photochromic composition of the label as compared with the initial value indicates the authenticity of the protective identifying label and, accordingly, the authenticity of the object.

Example 9

The photosensitive protective label includes a 3M 7613T white vinyl substrate 1, attached using an external acrylic adhesive layer 2 to the protected object 7, on the inner surface of which a photochromic composition 4 layer with a thickness of 7 μm and a size of 4 μm is fixed using an acrylic adhesive composition 3 - acrylic primer 3M 10 × 10 mm in the form of a gelatin film with integrated - suspended - bacteriorhodopsin with fragments of purple membranes 8–10 nm in size, containing 0.8 wt. including bacteriorhodopsin; 90 mass. including gelatin, and a protective layer 5 of optically transparent vinyl Lintec TE (b) 50C PAT1 8K, attached to the substrate 1 and to the layer 4 of the photochromic composition by means of optical acrylic adhesive 6 with a transparency of 71% in the visible optical range.

In scattered daylight, the photosensitive layer 4 of the photochromic composition with a uniform distribution of bacteriorhodopsin has a purple color. Hardware identification of the object is carried out upon initiation of the photochromic transition in bacteriorhodopsin by exposing the label to external radiation of an LED at a wavelength of 560 nm and detecting a change in optical density at a wavelength of 560 nm using a photodetector. In this case, a decrease in the optical density of the photochromic composition of the label as compared with the initial value indicates the authenticity of the protective identifying label and, accordingly, the authenticity of the object.

Example 10

The photosensitive protective label includes a 300 g / cm ³ white paper backing 1 attached using an external acrylic adhesive layer 2 to the protected object 7, on the inner surface of which a layer 4 of a photochromic composition 18 thick is fixed with an acrylic adhesive composition 3 - acrylic primer 3M 94EF microns and a size of 10 × 10 mm in the form of a gelatin film with built-in-suspended-bacteriorhodopsin with fragments of purple membranes 20 ÷ 35 nm in size, containing 0.3 mass. including bacteriorhodopsin; 75 mass. including gelatin, and a protective layer 5 of optically transparent vinyl Lintec TE (b) 50C PAT1 8K, attached to the substrate 1 and to the layer 4 of the photochromic composition by means of optical acrylic adhesive 6 with a transparency of 70% in the visible optical range.

In scattered daylight, the photosensitive layer 4 of the photochromic composition with a uniform distribution of bacteriorhodopsin has a purple color. Hardware identification of the object is carried out when a photochromic transition in bacteriorhodopsin is initiated by exposing the label to external radiation of an LED at a wavelength of 560 nm and detecting changes in optical density at a wavelength of 560 nm using a photodetector. In this case, a decrease in the optical density of the photochromic composition of the label as compared with the initial value indicates the authenticity of the protective identifying label and, accordingly, the authenticity of the object.

Claims (7)

1. A photosensitive protective label for hardware identification containing a bacteriorhodopsin-based photochromic layer deposited on a substrate, characterized in that a layer of the photochromic composition in the form of a gelatin film with built-in-weighted bacterioriorhodopsin 3 ÷ 10 μm thick is fixed on the inner surface of the substrate by means of an adhesive composition and a protective layer from an optically transparent film that is easily destroyed upon removal and attached to the substrate and to the layer of the photochromic composition by means of an optically transparent Leu in the following ratio photochromic composition pbw .: bacteriorhodopsin 0.2 ÷ 0.8 gelatin               75 ÷ 95 2. The photosensitive identifying label according to claim 1, characterized in that optical acrylic adhesive is used as an optically transparent adhesive. 3. The photosensitive identifying label according to claim 2, characterized in that a low molecular weight copolymer of methyl methacrylate and butyl methacrylate is used as an optical acrylic adhesive in a ratio of 1 ÷ 3. 4. The photosensitive identifying label according to claim 1 or 2, characterized in that the transparency of the film of the protective layer with optical acrylic adhesive in the visible optical range is at least 70%. 5. The photosensitive identifying label according to claim 1 or claim 2, characterized in that the substrate is provided with an external adhesive layer that provides adhesion strength to the surface of the protected object that is higher than the strength of the substrate material, 6. The photosensitive identifying label according to claim 5, characterized in that the outer adhesive layer of the substrate is provided with an easily removable protective coating.

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