Patent application number | Description | Published |
20090137405 | DETECTION OF NUCLEIC ACID BIOMARKERS USING POLYMERIZATION-BASED AMPLIFICATION - The invention provides methods for highly-specific detection of hybridization of single stranded nucleic acids. The invention also provides methods for target identification which rely on this highly-specific hybridization detection. Targets suitable for detection include, but are not limited to, nucleic acid biomarkers. The methods of the invention can employ an on-chip, DNA polymerase-dependent labeling scheme termed primer extension (PEX) to couple biotinylated deoxyribonucleotide triphosphate (dNTP) molecules to nucleic acid hybrids bound to a solid substrate, allowing for subsequent recognition by biotin-binding-protein-labeled photoinitiators. Surface-initiated polymerization from these surface bound photoinitiators can lead to the formation of macroscale amounts of polymeric material, thereby amplifying the signal from the initial molecular recognition event. | 05-28-2009 |
20100063209 | DEGRADABLE THIOL-ENE POLYMERS - A thiol-ene polymeric material is disclosed. The material is produced by the photopolymerization of reactants having thiol and olefin moieties. The material can incorporate encapsulated components, including cells. Additionally, the material can be derivatized by reacting the polymeric material with components such as proteins. | 03-11-2010 |
20110144227 | THIOL-VINYL AND THIOL-YNE SYSTEMS FOR SHAPE MEMORY POLYMERS - A variety of biomedical devices are provided which include thiol-ene or thiol-yne shape memory polymers. The biomedical devices of the invention are capable of exhibiting shape memory behavior at physiological temperatures and may be used in surgical procedures. Methods of making the devices of the invention are also provided. | 06-16-2011 |
20120071338 | POLYMERIZATION-BASED AMPLIFICATION FOR IMMUNOSTAINING AND BIODETECTION - The invention provides polymerization-based signal amplification methods in which labeling moieties are incorporated into a polymer mass or film formed at a biorecognition site. When the labeling moieties are fluorescent, the invention can be used to provide an immunofluorescent staining method which is non-enzymatic. The invention also provides kits useful for the immunofluorescent staining methods of the invention. | 03-22-2012 |
20120160828 | Radio Frequency Magnetic Field Responsive Polymer Composites - The invention includes a composite material comprising magnetic field responsive particles distributed in a reversibly crosslinked polymer, wherein the reversibly crosslinked polymer includes thermally reversible bonds. In one embodiment, exposing the composite material to an electromagnetic field allows for crack-healing, remolding and/or bonding of the material. | 06-28-2012 |
20130096219 | REDUCING POLYMERIZATION-INDUCED SHRINKAGE STRESS BY REVERSIBLE ADDITION-FRAGMENTATION CHAIN TRANSFER - The invention provides methods of reducing shrinkage stress in cross-linked polymerized materials by combining an addition-fragmentation chain transfer additive with a resin system prior to polymerization. The methods of the invention can improve the performance of conventional resin systems by reducing the shrinkage stress without significantly degrading the mechanical properties of the polymerized material. The shrinkage stress in the crosslinked polymeric materials produced by the methods of the invention may be from 25% to 75% of that of a control material produced by polymerization of the resin system alone to the same conversion. | 04-18-2013 |
20130244179 | Novel Thermoreversible Network Scaffolds and Methods of Preparing Same - The invention includes a novel light-activated polymerizable composition, wherein reversible crosslinks may be converted into irreversible crosslinks using a fully controllable physical and/or chemical process. The invention further includes methods of photofixing a light sensitive material or patterning an article comprising a light sensitive material. | 09-19-2013 |
20130277890 | Dual-Cure Polymer Systems - The present invention includes compositions that are useful to prepare dual-cure shape memory polymer systems. The present invention further provides methods of generating a shape memory polymer, optical device, polymer pad with an imprint, or suture anchor system. | 10-24-2013 |
20130323642 | Photoinduced Alkyne-Azide Click Reactions - The present invention includes a composition comprising an alkyne-based substrate, an azide-based substrate, a Cu(II) salt and a photoinducible reducing agent. The present invention further includes a method of immobilizing a chemical structure in a given pattern onto a section of the surface of a solid substrate, using the photoinducible Cu(I)-catalyzed azide-alkyne cycloaddition Click reaction. | 12-05-2013 |
20140038826 | COVALENTLY CROSS LINKED HYDROGELS AND METHODS OF MAKING AND USING SAME - A thiol-yne polymeric material and methods for producing said polymers are disclosed. The material is produced by the radically mediated polymerization of monomers having alkyne and thiol functional groups. The alkyne moiety, internal or terminal, may react with one or two thiols. Degradable monomers may be used to form degradable polymers. | 02-06-2014 |
20140039085 | DEGRADABLE THIOL-ENE POLYMERS - A thiol-ene polymeric material is disclosed. The material is produced by the photopolymerization of reactants having thiol and olefin moieties. The material can incorporate encapsulated components, including cells. Additionally, the material can be derivatized by reacting the polymeric material with components such as proteins. | 02-06-2014 |
20150133302 | DEGRADABLE THIOL-ENE POLYMERS - A thiol-ene polymeric material is disclosed. The material is produced by the photopolymerization of reactants having thiol and olefin moieties. The material can incorporate encapsulated components, including cells. Additionally, the material can be derivatized by reacting the polymeric material with components such as proteins. | 05-14-2015 |
20160068639 | DEGRADABLE THIOL-ENE POLYMERS - A thiol-ene polymeric material is disclosed. The material is produced by the photopolymerization of reactants having thiol and olefin moieties. The material can incorporate encapsulated components, including cells. Additionally, the material can be derivatized by reacting the polymeric material with components such as proteins. | 03-10-2016 |
Patent application number | Description | Published |
20080268551 | System and Method for Biological Assays - The present invention provides polymers and microfluidic devices comprising a covalently attached substrate binding element, and methods for producing and using the same. | 10-30-2008 |
20080269460 | Stress Relaxation in Crosslinked Polymers - The invention provides methods for inducing reversible chain cleavage of polymer chains in a crosslinked polymeric material. Reversible cleavage of the polymer backbone is capable of relieving stress in the polymeric material as the bonds reform in a less stressed state. The invention also provides methods for making polymeric materials capable of reversible chain cleavage, materials made by the methods of the invention, and linear monomers containing reversible chain cleavage groups which are useful in the materials and methods of the invention. | 10-30-2008 |
20080274335 | Photolytic Polymer Surface Modification - The present invention provides a method for modifying a surface of a polymer derived from a mixture comprising a thiol monomer and an olefinic monomer. The method comprises exposing at least a portion of the polymer surface to electromagnetic radiation of sufficient energy to modify the polymer surface. The present invention also provides a polymer derived from polymerizing a mixture of monomers comprising a thiol monomer, an olefinic monomer, and an iniferter. | 11-06-2008 |
20080318188 | Dimer Acid-Derived Dimethacrylates and Use in Dental Restorative Compositions - The present invention provides polymerizable dental compositions comprising a dimer acid-derived monomer such as a dimer acid-derived di(meth)acrylate monomer. In one embodiment, the dimer acid-derived monomer is of the formula (I): wherein R | 12-25-2008 |
20090163375 | Use of Photopolymerization for Amplification and Detection of a Molecular Recognition Event - The invention provides methods to detect molecular recognition events. The invention also provides methods to detect the presence of or identify a target species based on its interaction with one or more probe species. The methods of the invention are based on amplification of the signal due to each molecular recognition event. The amplification is achieved through photopolymerization, with the polymer formed being associated with the molecular recognition event. In one aspect, a fluorescent polymer, a magnetic polymer, a radioactive polymer or an electrically conducting polymer can form the basis of detection and amplification. In another aspect, a polymer gel swollen with a fluorescent solution, a magnetic solution, a radioactive solution or an electrically conducting solution can form the basis of detection and amplification. In another aspect, detectable particles can be included in the polymer formed. In another aspect, sufficient polymer forms to be detectable by visual inspection. | 06-25-2009 |
20090270528 | RESIN SYSTEMS FOR DENTAL RESTORATIVE MATERIALS - The disclosure provides a new photopolymerizable resin system for dental restorative materials. The resin system utilizes a thiol-ene component as the reactive diluent in dimethacrylate systems. The ternary resin system comprises a thiol monomer, an ene monomer and a dimethacrylate monomer. Use of an off-stoichiometric ratio of thiol:ene functional groups in favor of excess thiols results in enhanced overall functional group conversion, improved polymer mechanical properties, and reduced shrinkage stress of the ternary system when compared to either traditional dimethacrylate or thiol-ene resin systems. | 10-29-2009 |
20100304338 | POLYMER IMPRESSION MATERIALS - This invention relates to methods and compositions for single component photoinitiated dental impression materials. The impression material is workable in its pre-cured state, cures rapidly upon exposure to light, and exhibits desirable processing conditions such as short setting time, long working time, no void formation, good wettability, mechanical properties, and detail reproduction. | 12-02-2010 |
20110251092 | Use of Photopolymerization for Amplification and Detection of a Molecular Recognition Event - The invention provides methods to detect molecular recognition events. The invention also provides methods to detect the presence of or identify a target species based on its interaction with one or more probe species. The methods of the invention are based on amplification of the signal due to each molecular recognition event. The amplification is achieved through photopolymerization, with the polymer formed being associated with the molecular recognition event. In one aspect, a fluorescent polymer, a magnetic polymer, a radioactive polymer or an electrically conducting polymer can form the basis of detection and amplification. In another aspect, a polymer gel swollen with a fluorescent solution, a magnetic solution, a radioactive solution or an electrically conducting solution can form the basis of detection and amplification. In another aspect, detectable particles can be included in the polymer formed. In another aspect, sufficient polymer forms to be detectable by visual inspection. | 10-13-2011 |
20120016052 | Stress Relaxation in Crosslinked Polymers - The invention provides methods for inducing reversible chain cleavage of polymer chains in a crosslinked polymeric material. Reversible cleavage of the polymer backbone is capable of relieving stress in the polymeric material as the bonds reform in a less stressed state. The invention also provides methods for making polymeric materials capable of reversible chain cleavage, materials made by the methods of the invention, and linear monomers containing reversible chain cleavage groups which are useful in the materials and methods of the invention. | 01-19-2012 |
20120092632 | DIFFRACTION UNLIMITED PHOTOLITHOGRAPHY - Methods, devices, systems, and materials are disclosed for diffraction unlimited photofabrication. A method is provided where a photoresponsive material is illuminated with a first optical pattern at a first wavelength of light. The first wavelength of light alters a solubility of the photoresponsive organic material. The photoresponsive material is also illuminated with a second optical pattern at a second wavelength of light. The second wavelength of light hinders the ability of the first wavelength of light to alter the solubility of the photoresponsive organic material where the second optical pattern overlaps the first optical pattern. The photoresponsive organic material is then developed. | 04-19-2012 |
20120202917 | Stress Relief for Crosslinked Polymers - The invention provides methods for inducing reversible chain cleavage of polymer chains in a crosslinked polymeric material or during polymerization of a polymeric material. Reversible cleavage of the polymer backbone is capable of relieving stress in the polymeric material as the bonds reform in a less stressed state. The invention also provides mixtures for making crosslinked polymeric materials, methods for making polymeric materials capable of reversible chain cleavage, materials made by the methods of the invention, and linear monomers containing reversible chain cleavage groups which are useful in the materials and methods of the invention. The mixtures of the invention may be dental restorative compositions used for forming dental restorative materials. | 08-09-2012 |
20120256338 | NEW RESIN SYSTEMS FOR DENTAL RESTORATIVE MATERIALS - The disclosure provides a new photopolymerizable resin system for dental restorative materials. The resin system utilizes a thiol-ene component as the reactive diluent in dimethacrylate systems. The ternary resin system comprises a thiol monomer, an ene monomer and a dimethacrylate monomer. Use of an off-stoichiometric ratio of thiol:ene functional groups in favor of excess thiols results in enhanced overall functional group conversion, improved polymer mechanical properties, and reduced shrinkage stress of the ternary system when compared to either traditional dimethacrylate or thiol-ene resin systems. | 10-11-2012 |
20120295227 | DISULFIDE MONOMERS COMPRISING ETHYLENICALLY UNSATURATED NORBORNYL GROUPS SUITABLE FOR DENTAL COMPOSITIONS - Dental compositions and disulfide monomers described. The disulfide monomer comprises a disulfide backbone group wherein each of the sulfur atoms are bonded to a group terminating with an ethylenically unsaturated norbornyl group; and at least one other monomer comprising at least two ethylenically unsaturated groups. | 11-22-2012 |
20120295228 | DISULFIDE MONOMERS COMPRISING ETHYLENICALLY UNSATURATED GROUPS SUITABLE FOR DENTAL COMPOSITIONS - Dental compositions and disulfide monomers are described. The disulfide monomer comprise a disulfide backbone group wherein each of the sulfur atoms are bonded to an ethylenically unsaturated group via a divalent linking group and the linking group comprises at least one heteroatom; and at least one other monomer ethylenically unsaturated monomer. | 11-22-2012 |
20130123381 | Novel Resin Systems for Dental Restorative Materials and Methods Using Same - The invention includes a new photopolymerizable resin system for dental restorative materials. The resin system utilizes a thiol-ene component as the reactive diluent in dimethacrylate systems. The ternary resin system comprises a thiol monomer, an ene monomer and a dimethacrylate monomer. The system of the invention has enhanced overall functional group conversion, improved polymer mechanical properties, and reduced shrinkage stress of the ternary system when compared to either traditional dimethacrylate or thiol-ene resin systems. | 05-16-2013 |
20140303391 | SYNTHESIS OF TRITHIOCARBONATES AND ALLYL SULFIDES AND THEIR APPLICATION INTO ADVANCES IN COVALENT ADAPTABLE NETWORKS - Monomers having a C-B-A-B-C structure are disclosed, where A is a core of either trithiocarbonate and allyl sulfide, where B are linker units, and where C are end units. The end units may comprise acrylates, methacrylates, alcohol(s), amine(s), and alkynes, among others. The linker units may include an alkane, alkene, phenyl, diphenyl, or benzylic group, among others. Methods of synthesizing such compounds are also disclosed. | 10-09-2014 |
20150031782 | NOVEL THIOL-CONTAINING DUAL CURE POLYMERS AND METHODS USING SAME - The invention includes a composition comprising a vinyl sulfone monomer, a thiol monomer and an acrylate monomer. In one embodiment, the thiol monomer reacts with the vinyl sulfone monomer preferentially over the acrylate monomer, and this differential selectivity allows for the control of the architecture of crosslinking polymer network. The invention further includes a composition comprising an electrophilic monomer, a nucleophilic monomer, a nucleophilic catalyst and an acid, wherein the concentrations of the nucleophilic catalyst and acid are selected as to provide a specific induction time for the polymerization reaction of the composition. | 01-29-2015 |
20150057187 | Click Nucleic Acids - Click nucleic acid monomers and polymers containing such monomers are disclosed. The click nucleic acid monomers include an optionally protected thiol moiety, an optionally protected thiol-click acceptor moiety, and an optionally protected nucleobase (NB), which in some examples is an A, G, T, U, or C nucleobase. In some examples, the click nucleic acid monomer includes a N-vinyl thiol acetamide (VTA) backbone. In other examples the click nucleic acid monomer includes a N-vinyl thiol ethylamine (VTE) backbone. Methods of using such polymers, for example in place of naturally occurring nucleic acid polymer applications, such as DNA or RNA, and synthetic nucleic acid polymer applications, such as PNA or morpholino nucleic acids, are also disclosed. | 02-26-2015 |
20150250687 | NOVEL DENTAL COMPOSITES SYSTEMS AND METHODS OF MAKING THE SAME AND USING SAME - The invention includes a composition comprising a vinyl sulfone monomer, a thiol monomer, and optionally an isocyanate monomer. The invention further includes a composition comprising a composition comprising the tetra(2-mercapto)silane (SiTSH) monomer and at least one selected from the group consisting of (a) a Michael acceptor, optionally an isocyanate monomer, and optionally at least one catalyst selected from the group consisting of a base, nucleophile, photolabile base, photolabile nucleophile, and mixtures thereof; (b) an ene monomer, and optionally a polymerization photoinitiator. In certain embodiments, once the composition is polymerized, the polymerized system is suitable for use as a dental composite system. In other embodiments, the polymerized system is stable to acidic and basic conditions. In yet other embodiments, the polymerized system forms microparticles. The invention further includes a method of generating a dental polymeric material. | 09-10-2015 |
20150267002 | NOVEL COMPOSITE COMPOSITIONS AND METHODS OF PREPARING AND USING SAME - The present invention includes compositions comprising an alkyne-based substrate, an azide-based substrate, optionally a Cu(II) salt and optionally a photoinducible reducing agent. The present invention further includes a method of preparing composite materials that are suitable for use as dental implants using the compositions of the invention. | 09-24-2015 |
20160039961 | MONODISPERSE MICROSPHERES AND METHOD OF PREPARING SAME - The present invention includes microspheres prepared using step-growth dispersion click chemistry polymerization. In certain embodiments, the click chemistry polymerization comprises thiol-ene polymerization and/or thiol-Michael polymerization. In other embodiments, the microspheres are near-monodisperse and/or monodisperse. In yet other embodiments, the microspheres have a glass transition temperature (Tg) in the range of −50° C. to 100° C. The present invention further includes a method of making the same. | 02-11-2016 |