Patent application number | Description | Published |
20110064674 | LUMINESCENT MULTIMODAL NANOPARTICLE PROBE SYSTEM AND METHOD OF MANUFACTURE THEREOF - A method of manufacture of a luminescent nanoparticle probe system includes forming a bismuth sulfide core; and coating the bismuth sulfide core with a shell. | 03-17-2011 |
20110275169 | SEMICONDUCTOR NANOCRYSTAL PROBES FOR BIOLOGICAL APPLICATIONS AND PROCESS FOR MAKING AND USING SUCH PROBES - A semiconductor nanocrystal compound and probe are described. The compound is capable of linking to one or more affinity molecules. The compound comprises (1) one or more semiconductor nanocrystals capable of, in response to exposure to a first energy, providing a second energy, and (2) one or more linking agents, having a first portion linked to the one or more semiconductor nanocrystals and a second portion capable of linking to one or more affinity molecules. One or more semiconductor nanocrystal compounds are linked to one or more affinity molecules to form a semiconductor nanocrystal probe capable of bonding with one or more detectable substances in a material being analyzed, and capable of, in response to exposure to a first energy, providing a second energy. Also described are processes for respectively: making the semiconductor nanocrystal compound; making the semiconductor nanocrystal probe; and treating materials with the probe. | 11-10-2011 |
20140179046 | SEMICONDUCTOR NANOCRYSTAL PROBES FOR BIOLOGICAL APPLICATIONS AND PROCESS FOR MAKING AND USING SUCH PROBES - A semiconductor nanocrystal compound and probe are described. The compound is capable of linking to one or more affinity molecules. The compound comprises (1) one or more semiconductor nanocrystals capable of, in response to exposure to a first energy, providing a second energy, and (2) one or more linking agents, having a first portion linked to the one or more semiconductor nanocrystals and a second portion capable of linking to one or more affinity molecules. One or more semiconductor nanocrystal compounds are linked to one or more affinity molecules to form a semiconductor nanocrystal probe capable of bonding with one or more detectable substances in a material being analyzed, and capable of, in response to exposure to a first energy, providing a second energy. Also described are processes for respectively: making the semiconductor nanocrystal compound; making the semiconductor nanocrystal probe; and treating materials with the probe. | 06-26-2014 |
Patent application number | Description | Published |
20090191567 | SEMICONDUCTOR NANOCRYSTAL PROBES FOR BIOLOGICAL APPLICATIONS AND PROCESS FOR MAKING AND USING SUCH PROBES - A semiconductor nanocrystal compound and probe are described. The compound is capable of linking to one or more affinity molecules. The compound comprises (1) one or more semiconductor nanocrystals capable of, in response to exposure to a first energy, providing a second energy, and (2) one or more linking agents, having a first portion linked to the one or more semiconductor nanocrystals and a second portion capable of linking to one or more affinity molecules. One or more semiconductor nanocrystal compounds are linked to one or more affinity molecules to form a semiconductor nanocrystal probe capable of bonding with one or more detectable substances in a material being analyzed, and capable of, in response to exposure to a first energy, providing a second energy. Also described are processes for respectively: making the semiconductor nanocrystal compound; making the semiconductor nanocrystal probe; and treating materials with the probe. | 07-30-2009 |
20090253211 | SEMICONDUCTOR NANOCRYSTAL PROBES FOR BIOLOGICAL APPLICATIONS AND PROCESS FOR MAKING AND USING SUCH PROBES - A semiconductor nanocrystal compound and probe are described. The compound is capable of linking to one or more affinity molecules. The compound comprises (1) one or more semiconductor nanocrystals capable of, in response to exposure to a first energy, providing a second energy, and (2) one or more linking agents, having a first portion linked to the one or more semiconductor nanocrystals and a second portion capable of linking to one or more affinity molecules. One or more semiconductor nanocrystal compounds are linked to one or more affinity molecules to form a semiconductor nanocrystal probe capable of bonding with one or more detectable substances in a material being analyzed, and capable of, in response to exposure to a first energy, providing a second energy. Also described are processes for respectively: making the semiconductor nanocrystal compound; making the semiconductor nanocrystal probe; and treating materials with the probe. | 10-08-2009 |
20100155668 | SEMICONDUCTOR NANOCRYSTAL PROBES FOR BIOLOGICAL APPLICATIONS AND PROCESS FOR MAKING AND USING SUCH PROBES - A semiconductor nanocrystal compound and probe are described. The compound is capable of linking to one or more affinity molecules. The compound comprises ( | 06-24-2010 |
20100224853 | SEMICONDUCTOR NANOCRYSTAL PROBES FOR BIOLOGICAL APPLICATIONS AND PROCESS FOR MAKING AND USING SUCH PROBES - A semiconductor nanocrystal compound and probe are described. The compound is capable of linking to one or more affinity molecules. The compound comprises (1) one or more semiconductor nanocrystals capable of, in response to exposure to a first energy, providing a second energy, and (2) one or more linking agents, having a first portion linked to the one or more semiconductor nanocrystals and a second portion capable of linking to one or more affinity molecules. One or more semiconductor nanocrystal compounds are linked to one or more affinity molecules to form a semiconductor nanocrystal probe capable of bonding with one or more detectable substances in a material being analyzed, and capable of, in response to exposure to a first energy, providing a second energy. Also described are processes for respectively: making the semiconductor nanocrystal compound; making the semiconductor nanocrystal probe; and treating materials with the probe. | 09-09-2010 |
Patent application number | Description | Published |
20090176221 | METHOD OF DETECTING AN ANALYTE IN A SAMPLE USING SEMICONDUCTOR NANOCRYSTALS AS DETECTABLE LABEL - The use of semiconductor nanocrystals as detectable labels in various chemical and biological applications is disclosed. The methods find use for detecting a single analyte, as well as multiple analytes by using more than one semiconductor nanocrystal as a detectable label, each of which emits at a distinct wavelength. | 07-09-2009 |
20110136139 | METHOD FOR ENHANCING TRANSPORT OF SEMICONDUCTOR NANOCRYSTALS ACROSS BIOLOGICAL MEMBRANES - Semiconductor nanoparticle complexes comprising semiconductor nanoparticles in association with cationic polymers are described. Also described are methods for enhancing the transport of semiconductor nanoparticles across biological membranes to provide encoded cells. The methods are particularly useful in multiplex settings where a plurality of encoded cells are to be assayed. Kits comprising reagents for performing such methods are also provided. | 06-09-2011 |
20110159519 | OPTICAL BIOSENSORS - Provided are biosensors, compositions comprising biosensors, and methods of using biosensors in living cells and organisms. The biosensors are able to be selectively targeted to certain regions or structures within a cell. The biosensors may provide a signal when the biosensor is targeted and/or in response to a property of the cell or organism such as membrane potential, ion concentration or enzyme activity. | 06-30-2011 |
20120058494 | Quenched Dendrimeric Dyes for Florescence Detection - The present invention presents designs for high extinction quenched “dyedrons” that can be activated by conversion of a single acceptor/quencher in the molecular assembly to a fluorescent state. The quencher is activated by noncovalent binding to a unique complementary expressible fluorogen activating peptide (FAP). In this way, the quencher serves as the homogeneous switch, receiving energy efficiently from each of the donor molecules of the dendronic antenna, and releasing it as fluorescence only when activated by binding. The sum of the extinction of the multiple dyes on the antenna will provide dramatic enhancements in the effective brightness of the probe in standard imaging systems. This approach provides a set of probes with exceptional brightness, specifically targeted to an expressed tag that activates the fluorescence of the dyedron. | 03-08-2012 |
20120252018 | METHOD OF DETECTING AN ANALYTE IN A SAMPLE USING SEMICONDUCTOR NANOCRYSTALS AS A DETECTABLE LABEL - The use of semiconductor nanocrystals as detectable labels in various chemical and biological applications is disclosed. The methods find use for detecting a single analyte, as well as multiple analytes by using more than one semiconductor nanocrystal as a detectable label, each of which emits at a distinct wavelength. | 10-04-2012 |
20130244891 | TARGETED PROBES OF CELLULAR PHYSIOLOGY - Biosensor comprising an activatable acceptor fluorogen linked via a linker to a donor which transfers energy to the fluorogen on detecting an analyte wherein the fluorogen component reacts and a 100 fold increase in intensity results when the fluorogen interacts non-covalently with an activator e.g. fluorogen activator peptide. | 09-19-2013 |
20140193830 | OPTICAL BIOSENSORS - Provided are biosensors, compositions comprising biosensors, and methods of using biosensors in living cells and organisms. The biosensors are able to be selectively targeted to certain regions or structures within a cell. The biosensors may provide a signal when the biosensor is targeted and/or in response to a property of the cell or organism such as membrane potential, ion concentration or enzyme activity. | 07-10-2014 |