Patent application number | Description | Published |
20100075437 | Synthesis of highly luminescent colloidal particles - The present invention includes compositions and methods for their used wherein the compositions include clusters of coated fluorescent nanocrystals having a select size formed by controlled aggregation of individual coated nanocrystals. | 03-25-2010 |
20100105048 | FUNCTIONALIZED FLUORESCENT NANOCRYSTAL DETECTION SYSTEM - The present invention include fluorescent nanocrystals which have high fluorescence intensity, are water soluble, exhibit physical and chemical stability, and whose spectral properties are detectably modified as the size of functional groups bonded to the nanocrystal surface change when contacted with target molecules in a sample. The molecules in the sample add to or reduce the size of functional groups on the fluorescent nanocrystal proportional to the activity and amount of the target molecules. The present invention may be used to detect telomerase in a sample. | 04-29-2010 |
20100193767 | ENCAPSULATED NANOPARTICLES - A nanoparticle composition including a semiconductor nanoparticle encapsulated within a self-assembled layer including an amphiphilic cross-linkable multi-unsaturated fatty acid based compound or derivative thereof. In other embodiments, a nanoparticle composition includes a semiconductor nanoparticle encapsulated within a self-assembled layer including an amphiphilic cross-linkable C | 08-05-2010 |
20110003343 | CONJUGATES OF BIOMOLECULES TO NANOPARTICLES - Disclosed herein are conjugates comprising a biomolecule linked to a label that have biological activity and are useful in a wide variety of biological applications. For example, provided herein are polymerase-nanoparticle conjugates including a polymerase linked to a nanoparticle, wherein the conjugate has polymerase activity. Such conjugates can exhibit reduced aggregation and improved stochiometries wherein the average biomolecule:nanoparticle ratio approaches or equals 1:1. Also disclosed herein are improved methods for preparing such conjugates, and methods and systems for using such conjugates in biological applications such as nucleotide incorporation, primer extension and single molecule sequencing. | 01-06-2011 |
20110068321 | Semiconductor nanoparticle-based materials - In various embodiment, a primary particle includes a primary matrix material containing a population of semiconductor nanoparticles, with each primary particle further comprising an additive to enhance the physical, chemical and/or photo-stability of the semiconductor nanoparticles. A method of preparing such particles is described. Composite materials and light-emitting devices incorporating such primary particles are also described. | 03-24-2011 |
20110068322 | Semiconductor Nanoparticle-Based Materials - In various embodiments, the present invention relates to a plurality of coated primary particles, each primary particle including a primary matrix material and containing a population of semiconductor nanoparticles, wherein each primary particle is provided with a separate layer of a surface coating material. Various methods of preparing such particles are described. Composite materials and light-emitting devices incorporating such primary particles are also described. | 03-24-2011 |
20110220844 | SULFONATE MODIFIED NANOCRYSTALS - A nanoparticle having one or more phosphonates or phosphinate ligands on their surface can be converted into nanoparticles with sulfonate ligands on their surface, by contacting the phosphonate-containing nanoparticles with a silylsulfonate reagent. Such nanoparticles are activated toward reactions with nucleophilic groups; thus the method provides activated nanoparticles, and methods of making and using them to produce modified nanoparticles. | 09-15-2011 |
20110241229 | ENCAPSULATED NANOPARTICLES - In various embodiments, the present invention relates to production of encapsulated nanoparticles by dispersing said nanoparticles and an encapsulating medium in a common solvent to form a first solution system and applying a stimulus to said first solution system to induce simultaneous aggregation of the nanoparticles and the encapsulating medium. | 10-06-2011 |
20110306079 | WATER-DISPERSABLE NANOPARTICLES - Provided herein are methods for making water-soluble nanoparticles comprising a core/shell nanocrystal that is coated with a surface layer comprising enough hydrophilic ligands to render the nanoparticle water soluble or water dispersable. Methods for crosslinking molecules on the surface of a nanoparticle, which methods can be used on the above water-soluble nanoparticles also are provided. Nanoparticle compositions resulting from these methods are also provided. | 12-15-2011 |
20130034916 | FUNCTIONALIZED FLUORESCENT NANOCRYSTAL COMPOSITIONS AND METHODS FOR THEIR PREPARATION - The present invention provides for functionalized fluorescent nanocrystal compositions and methods for making these compositions. The compositions are fluorescent nanocrystals coated with at least one material. The coating material has chemical compounds or ligands with functional groups or moieties with conjugated electrons and moieties for imparting solubility to coated fluorescent nanocrystals in aqueous solutions. The coating material provides for functionalized fluorescent nanocrystal compositions which are water soluble, chemically stable, and emit light with a high quantum yield and/or luminescence efficiency when excited with light. The coating material may also have chemical compounds or ligands with moieties for bonding to target molecules and cells as well as moieties for cross-linking the coating. In the presence of reagents suitable for reacting to form capping layers, the compounds in the coating may form a capping layer on the fluorescent nanocrystal with the coating compounds operably bonded to the capping layer. | 02-07-2013 |
20130075692 | SEMICONDUCTOR NANOPARTICLE-BASED LIGHT EMITTING MATERIALS - A light emitting layer including a plurality of light emitting particles embedded within a host matrix material. Each of said light emitting particles includes a population of semiconductor nanoparticles embedded within a polymeric encapsulation medium. A method of fabricating a light emitting layer comprising a plurality of light emitting particles embedded within a host matrix material, each of said light emitting particles comprising a population of semiconductor nanoparticles embedded within a polymeric encapsulation medium. The method comprises providing a dispersion containing said light emitting particles, depositing said dispersion to form a film, and processing said film to produce said light emitting layer. | 03-28-2013 |
20130105839 | SEMICONDUCTOR NANOPARTICLE-BASED MATERIALS FOR USE IN LIGHT EMITTING DIODES, OPTOELECTRONIC DISPLAYS AND THE LIKE | 05-02-2013 |
20130140600 | SEMICONDUCTOR NANOPARTICLE-CONTAINING MATERIALS AND LIGHT EMITTING DEVICES INCORPORATING THE SAME - In various embodiments, the present invention provides a light emitting device cap configured for location on a light emitting device comprising or consisting essentially of a primary light source. The cap defines a well region within which is received a population of semiconductor nanoparticles such that the semiconductor nanoparticles are in optical communication with the primary light source of the light emitting device when the cap is located on the light emitting device. There is further provided a light emitting device comprising or consisting essentially of a primary light source and such a cap, as well as methods for fabricating such a cap and device. | 06-06-2013 |
20130190493 | Surface Modified Nanoparticles - Surface-modified nanoparticles are produced by associating ligand interactive agents with the surface of a nanoparticle. The ligand interactive agents are bound to surface modifying ligands that are tailored to impart particular solubility and/or compatibility properties. The ligand interactive agents are crosslinked via a linking/crosslinking agent, such as hexamethoxymethylmelamine or a derivative thereof. The linking/crosslinking agent may provide a binding site for binding the surface modifying ligands to the ligand interactive agents. | 07-25-2013 |
20130313595 | ENHANCEMENT OF QUANTUM YIELD USING HIGHLY REFLECTIVE AGENTS - Compositions having luminescent properties are described. The compositions can include a luminescent material, such as quantum dots and a reflective material, such as barium sulfate, both suspended in a matrix material. The presence of the reflecting material increases the amount of light captured from the composition. The compositions described herein can be used in back-lighting for LCDs and can also be used in other applications, such as color conditioning of ambient lighting. | 11-28-2013 |
20130326941 | Quantum Dot LED's to Enhance Growth in Photosynthetic Organisms - Quantum dot (QD) LEDs useful for plant, algael and photosynthetic bacterial growth applications. The QD LEDs utilizes a solid state LED (typically emitting blue or UV light) as the primary light source and one or more QD elements as a secondary light source that down-converts the primary light. The emission profile of the QD LED can be tuned to correspond to the absorbance spectrum of one or more photosynthetic pigments of the organism. | 12-12-2013 |
20140264193 | Preparation of Quantum Dot Beads Having a Silyl Surface Shell - Quantum dots (QDs) are encapsulated within microbeads having a silyl surface shell. The microbeads are prepared by copolymerizing unsaturated resins and an unsaturated organosilane in the presence of QDs. During the copolymerization, the unsaturated resin and the organosilane phase separate, forming beads having a silyl surface shell surrounding an essentially unsilylated interior. The QDs are encapsulated within the interior. The silyl shell provides a barrier against oxygen and other contaminants diffusing into the bead and reacting with the QDs. | 09-18-2014 |
20140264196 | Multi-Layer-Coated Quantum Dot Beads - Disclosed herein are coated beads made of a primary matrix material and containing a population of quantum dot nanoparticles. Each bead has a multi-layer surface coating. The layers can be two or more distinct surface coating materials. The surface coating materials may be inorganic materials and/or polymeric materials. A method of preparing such particles is also described. The coated beads are useful for composite materials for applications such as light-emitting devices. | 09-18-2014 |
20140308730 | CONJUGATES OF BIOMOLECULES TO NANOPARTICLES - Disclosed herein are conjugates comprising a biomolecule linked to a label that have biological activity and are useful in a wide variety of biological applications. For example, provided herein are polymerase-nanoparticle conjugates including a polymerase linked to a nanoparticle, wherein the conjugate has polymerase activity. Such conjugates can exhibit reduced aggregation and improved stochiometries wherein the average biomolecule:nanoparticle ratio approaches or equals 1:1. Also disclosed herein are improved methods for preparing such conjugates, and methods and systems for using such conjugates in biological applications such as nucleotide incorporation, primer extension and single molecule sequencing. | 10-16-2014 |
20150031217 | Encapsulated Nanoparticles - The present invention relates to a method for producing encapsulated nanoparticles by dispersing said nanoparticles and an encapsulating medium in a common solvent to form a first solution system and treating said first solution system with a stimulus suitable to induce simultaneous aggregation of the nanoparticles and the encapsulating medium. | 01-29-2015 |
20150047765 | Quantum Dot Films Utilizing Multi-Phase Resins - Multi-phase polymer films containing quantum dots (QDs) are described herein. The films have domains of primarily hydrophobic polymer and domains of primarily hydrophilic polymer. QDs, being generally more stable within a hydrophobic matrix, are dispersed primarily within the hydrophobic domains of the films. The hydrophilic domains tend to be effective at excluding oxygen. | 02-19-2015 |
20150048311 | Semiconductor Nanoparticle-Based Materials - The present invention relates to a primary particle comprised of a primary matrix material containing a population of semiconductor nanoparticles, wherein each primary particle further comprises an additive to enhance the physical, chemical and/or photo-stability of the semiconductor nanoparticles. A method of preparing such particles is described. Composite materials and light emitting devices incorporating such primary particles are also described. | 02-19-2015 |
20150179900 | Semiconductor Nanoparticle-Based Materials - In various embodiments, the present invention relates to a plurality of coated primary particles, each primary particle including a primary matrix material and containing a population of semiconductor nanoparticles, wherein each primary particle is provided with a separate layer of a surface coating material. Various methods of preparing such particles are described. Composite materials and light-emitting devices incorporating such primary particles are also described. | 06-25-2015 |
20150191648 | Surface-Modified Nanoparticles - The surfaces of nanoparticles (QDs) are modified with amphiphilic macromolecules, for example, amphiphilic copolymers. The surface modification renders the QDs more compatible with oxygen-excluding matrices, such as epoxy resin, polyurethane resin, polyester resins or any hydrophilic inorganic/organic hybrid resin such as (meth)acrylate-functionalized polyhedral oligomeric silsesquioxane (POSS). | 07-09-2015 |
20150233936 | WATER-DISPERSABLE NANOPARTICLES - Provided herein are methods for making water-soluble nanoparticles comprising a core/shell nanocrystal that is coated with a surface layer comprising enough hydrophilic ligands to render the nanoparticle water soluble or water dispersable. Methods for crosslinking molecules on the surface of a nanoparticle, which methods can be used on the above water-soluble nanoparticles also are provided. Nanoparticle compositions resulting from these methods are also provided. | 08-20-2015 |
20150255690 | Methods for fabricating quantum dot polymer films - The addition of a chain transfer agent (CTA) or a reversible-addition fragmentation chain transfer agent (RAFT CTA) such as (2-(dodecyl-thiocarbonothioylthio)-2-methylpropionic acid) during the formation of quantum dot polymer films yields films characterized by high and stable quantum yields. | 09-10-2015 |
20150267106 | Quantum Dot Compositions - It has been discovered that certain silicon-containing, surface-modifying ligands can be used to make semiconductor nanoparticles (quantum dots) more compatible with polysiloxanes. Quantum dots dispersed in a polysiloxane matrix may be used, for example, in light-emitting devices to alter the emission spectrum of such devices. | 09-24-2015 |