Abstract: A method of encrypting information includes converting an information sequence represented as a strings of bits into a curvilinear coding system, where each element of the curvilinear coding system corresponds to a sub-sequence of successive same-valued bits, converting said curvilinear coding system into a at least one closed curve, and embedding said at least one closed curve in a 2-dimensional pattern. A method for decrypting information includes extracting at least one closed curve from a digitized 2-dimensional pattern, and converting the at least one closed curve into an information sequence represented as a string of bits.

Abstract: A method of marking fibers, wherein the method includes providing a plurality of fibers; depositing a marker onto at least a portion of the fibers, the depositing being performed with a delivery mechanism comprising one or more outlets; and thereby marking the fibers. Also provided is a device for marking fibers, including a transport system adapted to transport fibers in a direction of a marker delivery apparatus positioned along the transport system; the delivery apparatus includes one or more outlets, adapted to deposit a solution of the marker through the outlets onto at least a portion of the fibers; and thereby marking the fibers. Authentication of a fibrous material using the marking method of the invention followed obtaining a sample of the marked fibers and assaying the sample for the presence of the nucleic acid marker; and thereby determining whether the fibrous material is authentic or counterfeit.

Abstract: Methods for authenticating an article with a cyanoacrylate solution comprising a water soluble security marker compound are described. The methods for producing a nucleophilic security marker/cyanoacrylate solution as well as methods for labeling an item and detecting the nucleophilic security marker/cyanoacrylate from an item being authenticated are also described. A method for using a nucleophilic cyanoacrylate security marker for antitheft purposes is also described.

Abstract: The invention provides methods for increasing the recoverability of taggants from an object. The methods include the steps of incorporating a taggant into a solution; mixing the solution including the taggant with a perturbant to form a first perturbant taggant solution; mixing the first perturbant taggant solution with a polymer to form a second perturbant taggant polymer solution; and applying the second perturbant taggant polymer solution to at least a portion of the object to form a taggant-coated object. Methods for authentication of a taggant marked object are also provided.

Abstract: Methods for distinguishing between cotton cultivars of a specific species by analyzing a sample of mature cotton fibers from raw cotton materials or from textile goods are disclosed. DNA is extracted from the mature cotton fiber sample and subjected to PCR techniques which enable the identification of the cultivar of a particular cotton species utilized in the textile or cotton material of interest.

Abstract: The invention provides a method of marking an item with naturally-derived or synthetic non-natural polymeric marker molecules, such as a DNA or Peptide marker in conjunction with optional visible or rapid scan reporters for authenticating or tracking, in which the method includes providing an item for marking, and applying a medium including a DNA marker to the item. The invention further provides methods for stably binding and immobilizing activated deoxyribonucleic acid onto objects and substrates. The method includes exposing the deoxyribonucleic acid to alkaline conditions, and contacting the deoxyribonucleic acid to the object or substrate. Also provided are methods for increasing the recoverability of taggants from an object.

Abstract: This invention pertains to methods for generating large quantities of DNA security markers by combinatorial variation techniques using polymorphic fragment length DNA for unique identification security marker applications such as explosive ink used in dye/smoke pack and cash carrying boxes.

Abstract: A method of marking an inventory item includes providing an activatable smoke generator and a reservoir for holding a smoke fluid and adapted to provide a flow of smoke fluid to the generator. The reservoir contains a smoke fluid including a carrier nucleic acid having a uniquely identifiable sequence, and upon activation of the smoke generator, marker smoke is generated and targeted to flow over the inventory item. The method further includes activating the smoke generator to produce the marker smoke including the carrier nucleic acid so as to cause the marker smoke to flow over the inventory item and thereby to detectably mark the inventory item with carrier nucleic acid.

Abstract: A method of encrypting information includes converting an information sequence represented as a strings of bits into a curvilinear coding system, where each element of the curvilinear coding system corresponds to a sub-sequence of successive same-valued bits, converting said curvilinear coding system into a at least one closed curve, and embedding said at least one closed curve in a 2-dimensional pattern. A method for decrypting information includes extracting at least one closed curve from a digitized 2-dimensional pattern, and converting the at least one closed curve into an information sequence represented as a string of bits.

Abstract: The invention provides a composition including DNA bonded to a plasma-treated surface, the plasma can be any suitable plasma, such as an argon plasma, a compressed air plasma, a flame-based plasma or a vacuum plasma. Surfaces treatable by the methods of the invention include ceramic, metal, fabric and organic polymer surfaces. The DNA can be any DNA, such as a marker DNA, which can be linear or circular, single-stranded or double stranded and from about 25 bases to about 10,000 bases in length. Also provided is a method of binding DNA to a surface, including the steps of exposing the surface to a plasma to produce a plasma-treated surface; and applying DNA to the plasma-treated surface to produce surface bound DNA on the treated surface.

Abstract: Encrypted markers that are not readily detectable can be revealed by treatment with a specific reagent used as a developer to reveal a readily detectable physical property of the marker, such as a characteristic fluorescence emission after excitation with a particular excitation wavelength, or to reveal a visible color. The encrypted marker can be developed in situ, or a sample can be removed by brushing, scraping, swabbing or scratching the marked object or item and developing the encrypted marker or a sample thereof with the appropriate developer to reveal an overt marker or optical signal. The marker can be revealed by exposure of the encrypted marker or a sample thereof to the developer in any suitable form, such as a solution, a slurry, a swab, a solid (such as in granular form), or a gas or a vapor that includes a developer.

Abstract: Exemplary embodiments of the present invention provide a method for assessing a proportion of one or more cotton species in an article comprising cotton. The method includes providing a sample including cotton fibers from the article comprising cotton. Cotton DNA is extracted from the cotton fibers to provide extracted cotton DNA. The extracted cotton DNA is analyzed to identify a presence of one or more cotton species included in the article comprising cotton. Proportions of the one or more cotton species included in the article comprising cotton are assessed.

Abstract: Methods for distinguishing between cotton cultivars of a specific species by analyzing a sample of mature cotton fibers from raw cotton materials or from textile goods are disclosed. DNA is extracted from the mature cotton fiber sample and subjected to PCR techniques which enable the identification of the cultivar of a particular cotton species utilized in the textile or cotton material of interest.

Abstract: The invention provides a method for in-field detection of a distinctive marker. The method includes providing a sample from an article of interest and analyzing the sample to detect the presence of the distinctive marker. The analysis is performed using an in-field detection instrument. The in-field detection instrument includes a microsystem configured to perform sample in-answer out analysis and detect the presence of the distinctive marker in the sample.

Abstract: The invention provides a method of marking an item with naturally-derived or synthetic non-natural polymeric marker molecules, such as a DNA or Peptide marker in conjunction with optional visible or rapid scan reporters for authenticating or tracking, in which the method includes providing an item for marking, and applying a medium including a DNA marker to the item. The invention further provides methods for stably binding and immobilizing activated deoxyribonucleic acid onto objects and substrates. The method includes exposing the deoxyribonucleic acid to alkaline conditions, and contacting the deoxyribonucleic acid to the object or substrate. Also provided are methods for increasing the recoverability of taggants from an object.

Abstract: A verifiably identifiable object that includes a primary taggant encoding a readable encrypted first identifier of the object encrypted by a first method and a secondary taggant encoding a readable encrypted second identifier of the object optionally encrypted by a second method. The primary taggant can be a physical identification taggant, such as DNA including an authentication sequence, and the secondary taggant can be a digital identification taggant. The digital identification taggant encodes information validating the physical identification taggant, such as by referencing information embodied in the physical taggant, e.g. the defined sequence within the DNA. Also included is a method and system for identification and/or authentication of an object that includes a primary taggant encoding a readable encrypted first identifier of the object encrypted by a first method and a secondary taggant encoding a readable encrypted second identifier of the object encrypted by a second method.

Abstract: Provided are a method and device for marking an article for security, tracking or authentication. The method includes depositing a solution comprising a nucleic acid marker onto at least a portion of the article. The nucleic acid marker may be activated, for example, by adding a functional group to the nucleic acid marker. The activation of the nucleic acid marker may be performed by exposure to alkaline conditions. The method is well suited for marking fibers and textiles, as well as many other items.

Abstract: Methods for distinguishing between cotton species by analyzing a sample of mature cotton fibers from raw cotton materials or from textile goods are disclosed. DNA is extracted from the mature cotton fiber sample and subjected to PCR techniques which enable the identification of the species of cotton utilized in the textile or cotton material of interest.

Abstract: A method of marking an inventory item includes providing an activatable smoke generator and a reservoir for holding a smoke fluid and adapted to provide a flow of smoke fluid to the generator. The reservoir contains a smoke fluid including a carrier nucleic acid having a uniquely identifiable sequence, and upon activation of the smoke generator, marker smoke is generated and targeted to flow over the inventory item. The method further includes activating the smoke generator to produce the marker smoke including the carrier nucleic acid so as to cause the marker smoke to flow over the inventory item and thereby to detectably mark the inventory item with carrier nucleic acid.

Abstract: The invention provides a composition including DNA bonded to a plasma-treated surface, the plasma can be any suitable plasma, such as an argon plasma, a compressed air plasma, a flame-based plasma or a vacuum plasma. Surfaces treatable by the methods of the invention include ceramic, metal, fabric and organic polymer surfaces. The DNA can be any DNA, such as a marker DNA, which can be linear or circular, single-stranded or double stranded and from about 25 bases to about 10,000 bases in length. Also provided is a method of binding DNA to a surface, including the steps of exposing the surface to a plasma to produce a plasma-treated surface; and applying DNA to the plasma-treated surface to produce surface bound DNA on the treated surface.