RU195257U1 - Photosensitive Identification Tag - Google Patents

Abstract

The utility model relates to the field of verifying the identity or authenticity of an object and can be used for technologically simple and reliable verification of authenticity and protection against falsification of various valuable documents and products by using a photosensitive identification tag based on bacteriorhodopsin. A photosensitive identification tag contains a layer of a photochromic composition on based on a suspension of bacteriorhodopsin in an aqueous solution of a polymer binder and nanofibrillar fiber cellulose constant in the following ratio, wt. including: In addition, the layer of photochromic composition may additionally contain a modifier of the properties of bacteriorhodopsin in an amount of 10 ÷ 30 wt. h. 2 z.p. f-ly, 1 ill.

Description

The utility model relates to the field of verification of the identity or authenticity of an object and can be used for technologically simple and reliable authentication and protection against falsification of various valuable documents and products by using a photosensitive identification 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. In technology, the main property of bacteriorhodopsin is used, which is the presence of a photochemical cycle: after absorption of a quantum of light, a bacteriorhodopsin molecule passes through a cyclic sequence of states and spontaneously returns to its original form. Moreover, in accordance with a 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, the 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 of 03/31/1999) was used in various technical solutions for photochromic marking and authentication of various objects.

It is known to use 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 process 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.

In addition, a photosensitive identification tag is known that contains a photochromic layer on the substrate based on a suspension of bacteriorhodopsin in an aqueous solution of a polymer binder layer in the form of a gelatin film with built-in-weighted bacteriorhodopsin (RU 2679535 C1, G07D 7/00, publ. 02/11/2019; RU 2679536 C1, G07D 7/00, publ. 11.02.2019). This photosensitive label is made in the form of a multilayer structure using optical acrylic adhesive, which significantly complicates the manufacturing process of the photosensitive protective label.

The utility model is aimed at creating a technologically simple design of a photosensitive identification tag with an increased duration of preservation of the photochromic properties of bacteriorhodopsin, which ensures high-quality reproducibility of the optical color effect obtained with additional external influence and, accordingly, effective identification and authentication of various objects.

The solution of this problem is ensured by the fact that in a photosensitive identifying label containing a layer of a photochromic composition based on a suspension of bacteriorhodopsin in an aqueous solution of a polymer binder located on a substrate, according to a useful model, the photochromic composition layer additionally contains nanofibrillated cellulose fibers in the following ratio of components, mass, h. :

bacteriorhodopsin 1 ÷ 5 polymer binder 1 ÷ 10 nanofibrillated cellulose 0.05 ÷ 2.0 water 40 ÷ 80

Alternatively, the layer of the photochromic composition may additionally contain a modifier of the properties of bacteriorhodopsin in an amount of 10 ÷ 30 mass. h

Moreover, a modifier based on lysine or polylysine is used as a modifier of the properties of bacteriorhodopsin.

In addition, polyvinyl alcohol, or polyvinylpyrrolidone, or polyethylene oxide, or polyacrylamide, or hydroxyethyl cellulose is used as the polymer binder.

Nanofibrillated cellulose (also known as microfibrillated cellulose) is a typical nanostructured polymer material made from cellulose rod-like fibers, where individual nanofibrils with a transverse size (diameter) of 3 nm to 20 nm and a length of 50 nm to 500 nm or nanofibril complexes are separated from each other (see, for example, RU 2528394).

The implementation of the photochromic layer in the claimed photosensitive identifying labels in the form of a film based on a suspension of bacteriorhodopsin in an aqueous solution of a polymer binder with embedded nanofibrillated cellulose fibers in an amount of 0.05-2.0 mass. h., which prevent the cohesion of fragments of cell purple membranes in which bacteriorhodopsin is embedded with each other, provides both technological ease of manufacture and the long and reliable preservation and reproducibility of the photochromic properties of bacteriorhodopsin when storing and using a photosensitive identifying label.

In addition, the presence in the claimed composition of the components of the photochromic composition modifier of the photochromic properties of bacteriorhodopsin, preferably based on lysine or polylysine in an amount of 10 ÷ 30 mass. h. It provides optical uniformity and high optical density with refractive and absorption indices necessary for optimal visual perception of the optical color effect obtained by additional external exposure and, accordingly, effective protection against falsification of various objects.

The drawing schematically shows a General view of a photosensitive identification tag.

The photosensitive identifying label contains a photochromic layer 2 located on the substrate 1, which is formed by applying a microdoser to a suspension of the photochromic composition containing bacteriorhodopsin in the form of fragments of purple membranes, preferably 15 ÷ 250 nm in size, obtained after ultrasonic treatment of the purple halobacterium membranes Halobacterium salinarum in an aqueous solution polymer binder, and nanofibrillated cellulose fiber, and is fixed during drying at room temperature in the form of a film, with a thickness of redpochtitelno 1 ÷ 20 microns, with the following component ratio, wt. hours:

bacteriorhodopsin 1 ÷ 5 polymer binder 1 ÷ 10 nanofibrillated cellulose 0.05 ÷ 2.0 water 40 ÷ 80

Alternatively, the layer of the photochromic composition may additionally contain a modifier of the properties of bacteriorhodopsin in an amount of 10 ÷ 30 mass. hours, preferably on the basis of lysine or polylysine, which provides the possibility of visual perception of the optical color effect obtained by additional external exposure.

In addition, preferably polyvinyl alcohol or polyvinyl pyrrolidone, or polyethylene oxide, or polyacrylamide, or hydroxyethyl cellulose is used as the polymer binder.

Example 1

The photosensitive identifying label includes a substrate 1, on which a layer 2 of a photochromic composition containing 2 masses is fixed in the form of a film (10 μm thick and 10 × 10 mm in size). including bacteriorhodopsin with a fragment size of purple membranes 15 ÷ 20 nm, 5 mass. including a polymeric binder (polyvinyl alcohol) and 1 mass. including nanofibrillated cellulose.

In scattered daylight, layer 2 of the photochromic composition has a red-violet (purple) color. The object is identified by the hardware method, while the photosensitive mark is initially illuminated by a light source in the form of an LED with a wavelength of λ ₁ = 570 nm and the intensity of the light flux transmitted through layer 2 of the photochromic composition with bacteriorhodopsin and reflected from the substrate 1 is recorded, the recorded signal is used as reference. Then the tags are illuminated simultaneously with two light sources: an LED with a wavelength of λ ₁ = 570 nm and an LED with a wavelength of λ ₂ = 410 nm, the intensity of the light flux passing through layer 2 of the photochromic composition with bacteriorhodopsin and reflected from the substrate 1 is recorded, and compared a fixed signal with a reference signal previously registered. When the radiation power density of 1.5 ÷ 2.0 mW / cm ^{2 the} decrease in the intensity of the light flux relative to the reference value is 8 ÷ 10%, which indicates the authenticity of the photosensitive label and, accordingly, the authenticity of the object.

Example 2

The photosensitive identifying label includes a substrate 1, on which a layer 2 of a photochromic composition containing 1 mass is fixed in the form of a film (20 μm thick and 10 × 10 mm in size). including bacteriorhodopsin with a fragment size of purple membranes 150 ÷ 180 nm, 8 mass. including a polymer binder (polyvinylpyrrolidone) and 1.5 mass. including nanofibrillated cellulose.

In scattered daylight, layer 2 of the photochromic composition has a red-violet (purple) color. The object is identified by the hardware method, while the photosensitive mark is initially illuminated by a light source in the form of an LED with a wavelength of λ ₁ = 570 nm and the intensity of the light flux transmitted through layer 2 of the photochromic composition with bacteriorhodopsin and reflected from the substrate 1 is recorded, the recorded signal is used as reference. Then the tags are illuminated simultaneously with two light sources: an LED with a wavelength of λ ₁ = 570 nm and an LED with a wavelength of λ ₂ = 410 nm, the intensity of the light flux passing through layer 2 of the photochromic composition with bacteriorhodopsin and reflected from the substrate 1 is recorded, and compared a fixed signal with a reference signal previously registered. When the radiation power density of 1.5 ÷ 2.0 mW / cm ^{2 the} decrease in the intensity of the light flux relative to the reference value is 8 ÷ 10%, which indicates the authenticity of the photosensitive label and, accordingly, the authenticity of the object.

Example 3

The photosensitive identifying label includes a substrate 1, on which a layer 2 of a photochromic composition containing 1 mass is fixed in the form of a film (1 μm thick and 10 × 10 mm in size). including bacteriorhodopsin with a fragment size of purple membranes 50 ÷ 60 nm, 5 mass. including a polymeric binder (polyethylene oxide) and 0.5 mass. including nanofibrillated cellulose.

In scattered daylight, layer 2 of the photochromic composition has a red-violet (purple) color. The object is identified by the hardware method, while the photosensitive mark is initially illuminated by a light source in the form of an LED with a wavelength of λ ₁ = 570 nm and the intensity of the light flux transmitted through layer 2 of the photochromic composition with bacteriorhodopsin and reflected from the substrate 1 is recorded, the recorded signal is used as reference. Then the tags are illuminated simultaneously with two light sources: an LED with a wavelength of λ ₁ = 570 nm and an LED with a wavelength of λ ₂ = 410 nm, the intensity of the light flux passing through layer 2 of the photochromic composition with bacteriorhodopsin and reflected from the substrate 1 is recorded, and compared a fixed signal with a reference signal previously registered. When the radiation power density of 1.5 ÷ 2.0 mW / cm ^{2 the} decrease in the intensity of the light flux relative to the reference value is 8 ÷ 10%, which indicates the authenticity of the photosensitive label and, accordingly, the authenticity of the object.

Example 4

The photosensitive identifying label includes a substrate 1 on which a layer 2 of a photochromic composition containing 5 masses is fixed in the form of a film (5 μm thick and 10 × 10 mm in size). including bacteriorhodopsin with a fragment size of the purple membranes 200 ÷ 250 nm, 10 mass. including a polymeric binder (hydroxyethyl cellulose) and 2 mass. including nanofibrillated cellulose.

In scattered daylight, layer 2 of the photochromic composition has a red-violet (purple) color. The object is identified by the hardware method, while the photosensitive mark is initially illuminated by a light source in the form of an LED with a wavelength of λ ₁ = 570 nm and the intensity of the light flux transmitted through layer 2 of the photochromic composition with bacteriorhodopsin and reflected from the substrate 1 is recorded, the recorded signal is used as reference. Then the tags are illuminated simultaneously with two light sources: an LED with a wavelength of λ ₁ = 570 nm and an LED with a wavelength of λ ₂ = 410 nm, the intensity of the light flux passing through layer 2 of the photochromic composition with bacteriorhodopsin and reflected from the substrate 1 is recorded, and compared a fixed signal with a reference signal previously registered. When the radiation power density of 1.5 ÷ 2.0 mW / cm ^{2 the} decrease in the intensity of the light flux relative to the reference value is 8 ÷ 10%, which indicates the authenticity of the photosensitive label and, accordingly, the authenticity of the object.

Example 5

The photosensitive identifying label includes a substrate 1, on which a layer 2 of a photochromic composition containing 5 masses is fixed in the form of a film (15 μm thick and 10 × 10 mm in size). including bacteriorhodopsin with a fragment size of the purple membranes 200-250 nm, 10 mass. including a polymeric binder (polyacrylamide), 1.8 wt. including nanofibrillated cellulose and 30 mass. including the modifier of the properties of bacteriorhodopsin based on lysine.

In scattered daylight, layer 2 of the photochromic composition has a red-violet (purple) color. Identification of the photosensitive label is carried out visually by illuminating a fluorescent lamp with a power of 15 W at an illumination of 10 Lx, while layer 2 of the photochromic composition acquires a yellow-brown color within a few seconds. After the fluorescent lamp is turned off, layer 2 of the photochromic composition containing bacteriorhodopsin acquires the former red-violet (purple) color, which indicates the authenticity of the identifying label and, accordingly, the authenticity of the protected object. The presence of a bacteriorhodopsin properties modifier in the photochromic composition increases its photochromic sensitivity, which provides effective visual identification of the authenticity of the protected object.

Example 6

The photosensitive identifying label includes a substrate 1, on which a layer 2 of a photochromic composition containing 5 masses is fixed in the form of a film (2 μm thick and 10 × 10 mm in size). including bacteriorhodopsin with fragments of the purple membranes 20 ÷ 25 nm, 2 mass. including a polymeric binder (polyacrylamide), 0.05 mass. including nanofibrillated cellulose and 10 mass. including the modifier of the properties of bacteriorhodopsin based on polylysine.

In scattered daylight, layer 2 of the photochromic composition has a red-violet (purple) color. Identification of the photosensitive label is carried out visually by illuminating a fluorescent lamp with a power of 15 W at an illumination of 10 Lx, while layer 2 of the photochromic composition acquires a yellow-brown color within a few seconds. After the fluorescent lamp is turned off, layer 2 of the photochromic composition containing bacteriorhodopsin acquires the former red-violet (purple) color, which indicates the authenticity of the identifying label and, accordingly, the authenticity of the protected object.

Example 7

The photosensitive identifying label includes a substrate 1, on which a layer 2 of a photochromic composition containing 3 masses is fixed in the form of a film (10 μm thick and 10 × 10 mm in size). including bacteriorhodopsin with a size of fragments of purple membranes 100 ÷ 150 nm, 5 mass. including a polymeric binder (polyvinyl alcohol), 1 mass. including nanofibrillated cellulose and 15 mass. including the modifier of the properties of bacteriorhodopsin based on lysine.

In scattered daylight, layer 2 of the photochromic composition has a red-violet (purple) color. Identification of the photosensitive label is carried out visually by illuminating a fluorescent lamp with a power of 15 W at an illumination of 10 Lx, while layer 2 of the photochromic composition acquires a yellow-brown color within a few seconds. After the fluorescent lamp is turned off, layer 2 of the photochromic composition containing bacteriorhodopsin acquires the former red-violet (purple) color, which indicates the authenticity of the identifying label and, accordingly, the authenticity of the protected object.

Claims (4)

1. A photosensitive identifying label containing a layer of a photochromic composition based on a suspension of bacteriorhodopsin in an aqueous solution of a polymer binder located on a substrate, characterized in that the layer of the photochromic composition additionally contains nanofibrillated cellulose fibers in the following ratio, wt. hours: bacteriorhodopsin 1 ÷ 5 polymer binder 1 ÷ 10 nanofibrillated cellulose 0.05 ÷ 2.0 water 40 ÷ 80 2. The photosensitive identifying label according to claim 1, characterized in that the photochromic composition layer further comprises a bacteriorhodopsin properties modifier in an amount of 10 ÷ 30 wt. h 3. A photosensitive identifying label according to claim 1 or 2, characterized in that a modifier based on lysine or polylysine is used as a modifier of bacteriorhodopsin properties.

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