Patent application number | Description | Published |
20110023748 | FIRE PROTECTION COMPOSITIONS, METHODS, AND ARTICLES - This disclosure relates to inorganic coatings suitable for fire protection, fire retardancy, and articles comprising same. Specifically, the disclosure relates to the manufacture and use of inorganic phosphate-based coating formulations for fire protection, preventing or reducing fire propagation, and for heat management. | 02-03-2011 |
20130126050 | INORGANIC PHOSPHATE CORROSION RESISTANT COATINGS - This disclosure relates to method phosphating an iron surface susceptible to corrosion, the method comprising contacting an iron surface with an aqueous mixture of an acidic phosphate component, a basic component, and at least one silicate; and forming a passivation zone chemically bound to the iron surface of one or more iron ions corresponding to the iron surface, the acidic phosphate component, the basic component, and at least one corrosion inhibitor precursor. | 05-23-2013 |
20130139930 | INORGANIC PHOSPHATE CORROSION RESISTANT COATINGS - This disclosure relates to method phosphating an iron surface susceptible to corrosion, the method comprising contacting an iron surface with an aqueous mixture of an acidic phosphate component, a basic component, and at least one silicate; and forming a passivation zone chemically bound to the iron surface of one or more iron ions corresponding to the iron surface, the acidic phosphate component, the basic component, and at least one corrosion inhibitor precursor. | 06-06-2013 |
Patent application number | Description | Published |
20120197599 | METHODS, SYSTEMS, AND APPARATUS FOR DETERMINING OPTICAL PROPERTIES OF ELEMENTS OF LIGHTING COMPONENTS HAVING SIMILAR COLOR POINTS - A method of determining lighting contributions of elements of a lighting component includes obtaining optical data representative of light output of the lighting component. Relative intensity data may be calculated from the optical data, and may indicate intensity differences in the light output of the lighting component as compared to that of a reference component. An optical property of an element of the lighting component is determined based on a comparison of the optical data with that of the reference component, where the reference component includes at least one reference element. Related systems and apparatus are also discussed. | 08-02-2012 |
20140167601 | Enhanced Luminous Flux Semiconductor Light Emitting Devices Including Red Phosphors that Exhibit Good Color Rendering Properties and Related Red Phosphors - Light emitting devices include an LED that emits light having a dominant wavelength in the blue color range and a recipient luminophoric medium that is configured to down-convert at least some of the light emitted by the LED. In these devices, the recipient luminophoric medium may include at least a green phosphor that down-converts the radiation emitted by the LED to radiation having a peak wavelength that is between about 525 nanometers and about 545 nanometers, a yellow phosphor that down-converts the radiation emitted by the LED to radiation having a peak wavelength that is between about 550 nanometers and about 570 nanometers, and a red (Ca | 06-19-2014 |
20140265921 | Solid State Lighting Apparatus and Methods of Forming - A light emitting device can include a solid state lighting source and a luminophoric medium for down-converting at least some of the radiation emitted by the solid state lighting source. The luminophoric medium may include a first material that down-converts the radiation emitted by the solid state lighting source to radiation having a first peak wavelength and that has a first decay time. The luminophoric medium may include a second material that down-converts the radiation emitted by the solid state lighting source to radiation having a second peak wavelength and that has a second decay time that is longer than the first decay time. | 09-18-2014 |
20140312376 | Semiconductor Light Emitting Devices Including Red Phosphors that Exhibit Good Color Rendering Properties and Related Red Phosphors - A light emitting device includes a light emitting diode (“LED”) that emits light having a dominant wavelength in the blue color range, and a recipient luminophoric medium that is configured to down-convert at least some of the light emitted by the LED. The recipient luminophoric medium includes a green phosphor that down-converts the radiation emitted by the LED to radiation having a peak wavelength that is between about | 10-23-2014 |
Patent application number | Description | Published |
20100090233 | SIDE-VIEW SURFACE MOUNT WHITE LED - A light emitting diode is disclosed. The diode includes a package support and a semiconductor chip on the package support, with the chip including an active region that emits light in the visible portion of the spectrum. Metal contacts are in electrical communication with the chip on the package. A substantially transparent encapsulant covers the chip in the package. A phosphor in the encapsulant emits a frequency in the visible spectrum different from the frequency emitted by the chip and in response to the wavelength emitted by the chip. A display element is also disclosed that combines the light emitting diode and a planar display element. The combination includes a substantially planar display element with the light emitting diode positioned on the perimeter of the display element and with the package support directing the output of the diode substantially parallel to the plane of the display element. | 04-15-2010 |
20100123104 | PHOSPHOR COMPOSITION - A method is disclosed for forming a blended phosphor composition. The method includes the steps of firing precursor compositions that include europium and nitrides of at least calcium, strontium and aluminum, in a refractory metal crucible and in the presence of a gas that precludes the formation of nitride compositions between the nitride starting materials and the refractory metal that forms the crucible. The resulting compositions can include phosphors that convert frequencies in the blue portion of the visible spectrum into frequencies in the red portion of the visible spectrum. | 05-20-2010 |
20130193836 | METHODS OF DETERMINING AND MAKING RED NITRIDE COMPOSITIONS - Provided according to embodiments of the invention are methods of making a Ca | 08-01-2013 |
20140167600 | YELLOW PHOSPHOR HAVING AN INCREASED ACTIVATOR CONCENTRATION AND A METHOD OF MAKING A YELLOW PHOSPHOR - A yellow phosphor having an increased activator concentration includes a host lattice comprising yttrium aluminum garnet (YAG) and an activator comprising cerium in the host lattice, where the cerium is present at a concentration of at least about 5 wt. % Ce. A method of making a yellow phosphor includes forming a reaction mixture comprising: a first precursor comprising cerium and oxygen; a second precursor comprising cerium and fluorine; a third precursor comprising yttrium; and a fourth precursor comprising aluminum. The reaction mixture is heated in a reducing environment at a temperature sufficient to form a yellow phosphor including a host lattice comprising yttrium aluminum garnet and an activator comprising cerium (Ce) incorporated in the host lattice. | 06-19-2014 |
20150069430 | Phosphor-converted light emitting device - A phosphor-converted light emitting device includes a light emitting diode (LED) on a substrate, where the LED comprises a stack of epitaxial layers comprising a p-n junction. A wavelength conversion material is in optical communication with the LED. According to one embodiment of the phosphor-converted light emitting device, a selective filter is adjacent to the wavelength conversion material, and the selective filter comprises a plurality of nanoparticles for absorbing light from the LED not down-converted by the wavelength conversion material. According to another embodiment of the phosphor-converted light emitting device, a perpendicular distance between a perimeter of the LED on the substrate and an edge of the substrate is at least about 24 microns. According to another embodiment of the phosphor-converted light emitting device, the LED comprises a mirror layer on one or more sidewalls thereof for reducing light leakage through the sidewalls. | 03-12-2015 |
Patent application number | Description | Published |
20100127613 | Luminescent Particles, Methods of Identifying Same and Light Emitting Devices Including the Same - A luminescent particle includes a luminescent compound that is configured to perform a photon down conversion on a portion of received light and a reflectance reducing outer surface of the luminescent particle that is operable to increase the portion of received light that is absorbed in the luminescent particle. | 05-27-2010 |
20100289045 | Luminescent Particles, Methods and Light Emitting Devices Including the Same - A luminescent particle includes an interior portion of the luminescent particle comprising a luminescent compound that reacts with atmospherically present components and a passivating layer on an outer surface of the luminescent particle that is operable to inhibit the reaction between the luminescent compound and the atmospherically present components. | 11-18-2010 |
20110220920 | METHODS OF FORMING WARM WHITE LIGHT EMITTING DEVICES HAVING HIGH COLOR RENDERING INDEX VALUES AND RELATED LIGHT EMITTING DEVICES - Methods of forming a light emitting device are provided in which a solid state lighting source is heated and a luminescent solution is applied to the heated solid state lighting source to form the light emitting device. The luminescent solution includes a first material that down-converts the radiation emitted by the solid state lighting source to radiation that has a peak wavelength in the green color range and that has a full width half maximum emission bandwidth that extends into the cyan color range, and at least one additional material that down-converts the radiation emitted by the solid state lighting source to radiation having a peak wavelength in another color range. | 09-15-2011 |
20110220929 | WARM WHITE LEDS HAVING HIGH COLOR RENDERING INDEX VALUES AND RELATED LUMINOPHORIC MEDIUMS - Light emitting devices include a solid state lighting source and a recipient luminophoric medium for down-converting at least some of the radiation emitted by the solid state lighting source. The recipient luminophoric medium includes a first material that down-converts the radiation emitted by the solid state lighting source to radiation having a peak wavelength in the green color range that has a full width half maximum emission bandwidth that extends into the cyan color range, and at least one additional material that down-converts the radiation emitted by the solid state lighting source to radiation having a peak wavelength in another color range. | 09-15-2011 |
20120305955 | Luminescent Particles, Methods and Light Emitting Devices Including the Same - A luminescent particle includes a luminescent compound that is configured to perform a photon down conversion on a portion of received light. The luminescent compound includes a host compound material and an activator material that is combined with the host compound material. The activator material is provided in a quantity that limits a conversion efficiency of the luminescent compound to limit a decrease in the decrease in luminous intensity of light emitted from the luminescent compound and thus provide a given color shift of the a combined emission wavelength from a non-excited state to a steady-state excited condition. | 12-06-2012 |
20120305958 | RED NITRIDE PHOSPHORS - Provided according to embodiments of the invention are phosphor compositions that include Ca | 12-06-2012 |
20120306354 | COATED PHOSPHORS AND LIGHT EMITTING DEVICES INCLUDING THE SAME - Provided according to embodiments of the invention are method of coating a phosphor that include contacting the phosphor with a sol comprising at least one of silica, alumina, borate and a precursor thereof, to form a coating on the phosphor; and heating the phosphor. Also provided are phosphors that are coated with alumina, silica and/or borate, and light emitting devices that include such phosphors. | 12-06-2012 |
20120313124 | GALIUM-SUBSTITUTED YTTRIUM ALUMINUM GARNET PHOSPHOR AND LIGHT EMITTING DEVICES INCLUDING THE SAME - Provided herein are phosphor compositions that include a YAG phosphor that is substituted with gallium, such as Y | 12-13-2012 |
20130001470 | LUMINESCENT PARTICLES, METHODS AND LIGHT EMITTING DEVICES INCLUDING THE SAME - A luminescent particle includes an interior portion of the luminescent particle comprising a luminescent compound that reacts with atmospherically present components and a passivating layer on an outer surface of the luminescent particle that is operable to inhibit the reaction between the luminescent compound and the atmospherically present components. | 01-03-2013 |
20140217326 | COATED PHOSPHORS AND LIGHT EMITTING DEVICES INCLUDING THE SAME - Provided according to embodiments of the invention are method of coating a phosphor that include contacting the phosphor with a sol comprising at least one of silica, alumina, borate and a precursor thereof, to form a coating on the phosphor; and heating the phosphor. Also provided are phosphors that are coated with alumina, silica and/or borate, and light emitting devices that include such phosphors. | 08-07-2014 |
20150024516 | Electrostatic Phosphor Coating Systems and Methods for Light Emitting Structures and Packaged Light Emitting Diodes Including Phosphor Coating - Methods are disclosed including applying a layer of binder material onto an LED structure. A luminescent solution including an optical material suspended in a solution is atomized using a flow of pressurized gas, and the atomized luminescent solution is sprayed onto the LED structure including the layer of binder material using the flow of pressurized gas. | 01-22-2015 |
20150060922 | Semiconductor Light Emitting Devices Including Multiple Red Phosphors That Exhibit Good Color Rendering Properties With Increased Brightness - A light emitting device includes a light emitting diode chip (“LED”) that emits light having a dominant wavelength in the blue color range and a recipient luminophoric medium that is configured to down-convert at least some of the light emitted by the LED. The recipient luminophoric medium includes a green phosphor, a yellow phosphor, a first red phosphor having a first dominant wavelength and a second red phosphor having a second dominant wavelength that is different from the first dominant wavelength. | 03-05-2015 |
Patent application number | Description | Published |
20080245787 | CONTROLLING AND MODERATING MICROWAVE ENERGY IN CONCURRENT MULTIPLE SAMPLE WELL APPLICATIONS - A system for microwave assisted high-throughput chemical processes is disclosed. The system includes a source of microwave radiation, a microwave cavity in communication with the source, and a microtiter plate in the cavity. The microtiter plate is formed of a microwave transparent material and includes a plurality of sample wells. A fluid chamber is defined by the interior of the four walls, the base, the profiles of the wells, and by the top surface of the microtiter plate. A microwave-moderating fluid in the chamber helps produce a more uniform microwave field among the individual wells in the microtiter plate when microwaves are applied in the cavity from the source. | 10-09-2008 |
20120041173 | WATER SOLUBLE SOLID PHASE PEPTIDE SYNTHESIS - A solid phase peptide synthesis method is disclosed. The method includes the steps of deprotecting an amino group in its protected form that is protected with a protecting group containing a Michael acceptor site composed of an α,β-unsaturated sulfone in a solvent selected from the group consisting of water, alcohol, and mixtures of water and alcohol; washing the deprotected acid in a solvent selected from the group consisting of water, alcohol, and mixtures of water and alcohol; coupling the deprotected acid to a resin-based peptide or a resin-based amino acid in a solvent selected from the group consisting of water, alcohol, and mixtures of water and alcohol; and washing the coupled composition in a solvent selected from the group consisting of water, alcohol, and mixtures of water and alcohol. | 02-16-2012 |
20120157563 | WATER SOLUBLE SOLID PHASE PEPTIDE SYNTHESIS - A solid phase peptide synthesis method is disclosed. The method includes the steps of deprotecting an amino group in its protected form that is protected with a protecting group that includes an α,β-unsaturated sulfone; washing the deprotected acid in a solvent selected from the group consisting of water, alcohol, and mixtures of water and alcohol; coupling the deprotected acid to a resin-based peptide or a resin-based amino acid; and washing the coupled composition in a solvent selected from the group consisting of water, alcohol, and mixtures of water and alcohol. | 06-21-2012 |
20130265051 | METHOD FOR DETERMINING FAT OR MOISTURE CONTENT - A method of measuring NMR response in an NMR instrument includes heating a sample at a heater temperature that is higher than the temperature of the interior of the NMR instrument, positioning the heated sample in the NMR instrument, and measuring the NMR response of the heat sample. Typically, the sample is dry and includes fat. Furthermore, a method of determining an amount of a component of a sample includes positioning a sample in an NMR instrument, applying a sequence of radio-frequency pulses to the sample, measuring the amplitudes of the signals produced by the application of the sequence of radio-frequency pulses, and determining the amount of a component in the sample using the measured amplitudes of the signals. The disclosed methods typically provide accurate analysis of samples in a shorter time period than traditional NMR techniques and solvent-based analysis techniques. | 10-10-2013 |
Patent application number | Description | Published |
20090012264 | Microwave-Assisted Peptide Synthesis - An instrument and method for accelerating the solid phase synthesis of peptides is disclosed. The method includes the steps of deprotecting a protected first amino acid linked to a solid phase resin by admixing the protected linked acid with a deprotecting solution in a microwave transparent vessel while irradiating the admixed acid and solution with microwaves, then activating a second amino acid by adding the second acid and an activating solution to the same vessel while irradiating the vessel with microwaves, then coupling the second amino acid to the first acid while irradiating the composition in the same vessel with microwaves, and cleaving the linked peptide from the solid phase resin by admixing the linked peptide with a cleaving composition in the same vessel while irradiating the composition with microwaves. | 01-08-2009 |
20090221792 | Microwave-Assisted Peptide Synthesis - An instrument and associated method are disclosed for the accelerated synthesis of peptides by the solid phase method. The instrument includes a microwave cavity, a microwave source in communication with the cavity, a column in the cavity formed of a material that is transparent to microwave radiation, a solid phase peptide support resin in the column, respective filters for maintaining the solid phase support resin in the column, a first passageway for adding starting compositions to the column, a second passageway for removing compositions from the column, and a third passageway for circulating compositions from the column into the third passageway and back to the column. | 09-03-2009 |
20100048865 | MICROWAVE-ASSISTED PEPTIDE SYNTHESIS - An instrument and method for accelerating the solid phase synthesis of peptides are disclosed. The method includes the steps of deprotecting a protected first amino acid linked to a solid phase resin by admixing the protected linked acid with a deprotecting solution in a microwave transparent vessel while irradiating the admixed acid and solution with microwaves, activating a second amino acid, coupling the second amino acid to the first acid while irradiating the composition in the same vessel with microwaves, and cleaving the linked peptide from the solid phase resin by admixing the linked peptide with a cleaving composition in the same vessel while irradiating the composition with microwaves. | 02-25-2010 |
20120055781 | MICROWAVE-ASSISTED PEPTIDE SYNTHESIS - An instrument and method for accelerating the solid phase synthesis of peptides are disclosed. The method includes the steps of deprotecting a protected first amino acid linked to a solid phase resin by admixing the protected linked acid with a deprotecting solution in a microwave transparent vessel while irradiating the admixed acid and solution with microwaves, activating a second amino acid, coupling the second amino acid to the first acid while irradiating the composition in the same vessel with microwaves, and cleaving the linked peptide from the solid phase resin by admixing the linked peptide with a cleaving composition in the same vessel while irradiating the composition with microwaves. | 03-08-2012 |
20130228449 | MICROWAVE-ASSISTED PEPTIDE SYNTHESIS - An instrument and method for accelerating the solid phase synthesis of peptides are disclosed. The method includes the steps of deprotecting a protected first amino acid linked to a solid phase resin by admixing the protected linked acid with a deprotecting solution in a microwave transparent vessel while irradiating the admixed acid and solution with microwaves, activating a second amino acid, coupling the second amino acid to the first acid while irradiating the composition in the same vessel with microwaves, and cleaving the linked peptide from the solid phase resin by admixing the linked peptide with a cleaving composition in the same vessel while irradiating the composition with microwaves. | 09-05-2013 |
20150027874 | MICROWAVE-ASSISTED PEPTIDE SYNTHESIS - An instrument and method for accelerating the solid phase synthesis of peptides are disclosed. The method includes the steps of deprotecting a protected first amino acid linked to a solid phase resin by admixing the protected linked acid with a deprotecting solution in a microwave transparent vessel while irradiating the admixed acid and solution with microwaves, activating a second amino acid, coupling the second amino acid to the first acid while irradiating the composition in the same vessel with microwaves, and cleaving the linked peptide from the solid phase resin by admixing the linked peptide with a cleaving composition in the same vessel while irradiating the composition with microwaves. | 01-29-2015 |
Patent application number | Description | Published |
20100041391 | EMBEDDED MOBILE ANALYTICS IN A MOBILE DEVICE - A method or process enables the collection of data from mobile devices and mobile networks using filtering, compression, encryption, memory management, and power management technologies to collect mobile device metrics at the mobile device (client side), and then transmit these metrics from the mobile device to a server for processing by analytics software. The analytics processing may also occur directly on the mobile device. Policies are determined and configured at the processing server to drive and control the mobile device metrics captured, which may include but are not limited to, data usage (e.g. time of day, amount of data sent/received), voice usage (e.g. time of day, calls in/out of network, dropped calls, call duration), the location of the mobile device, cell patterns (e.g. problem cells, roaming), touch interactions, behavioral analysis (programs used, services uses), battery performance, CPU usage, memory usage, network usage (e.g. 2G, 3G, 3.5G, 4G, Wi-Fi, WiMAX), and the like. | 02-18-2010 |
Patent application number | Description | Published |
20080313494 | MEMORY REFRESH SYSTEM AND METHOD - A refresh scheduler is configured to refresh memory cells of a memory device according to a plurality of refresh intervals. The various refresh intervals are determined in response to refresh errors. | 12-18-2008 |
20090079055 | METHOD AND STRUCTURE OF EXPANDING, UPGRADING, OR FIXING MULTI-CHIP PACKAGE - Embodiments of the present invention generally provide techniques and apparatus for altering the functionality of a multi-chip package (MCP) without requiring entire replacement of the MCP. The MCP may be designed with a top package substrate designed to interface with an add-on package that, when sensed by the MCP, alters the functionality of the MCP. | 03-26-2009 |
20090080279 | STRUCTURE TO SHARE INTERNALLY GENERATED VOLTAGES BETWEEN CHIPS IN MCP - Embodiments of the invention generally provide an apparatus and technique for sharing an internally generated voltage between devices of a multi-chip package (MCP). The internally generated voltage may be shared via a conductive structure that electrically couples the devices and carries the internally generated voltage. | 03-26-2009 |
20090113078 | METHOD AND APPARATUS FOR IMPLEMENTING MEMORY ENABLED SYSTEMS USING MASTER-SLAVE ARCHITECTURE - Embodiments of the invention generally provide a system, method, and memory device for accessing memory. In one embodiment, a first memory device includes command decoding logic configured to decode commands issued to the first memory device and a second memory device, while command decoding logic of the second memory device is bypassed. | 04-30-2009 |
20090113158 | METHOD AND APPARATUS FOR SYNCHRONIZING MEMORY ENABLED SYSTEMS WITH MASTER-SLAVE ARCHITECTURE - Embodiments of the invention generally provide a system, method and memory device for accessing memory. One embodiment includes synchronization circuitry configured to determine timing skew between a first memory device and a second memory device, and introduce a delta delay to at least one of the first memory device and the second memory device to adjust the timing skew. | 04-30-2009 |
20090129186 | SELF-DIAGNOSTIC SCHEME FOR DETECTING ERRORS - The present invention is generally related to integrated circuit devices, and more particularly, to methods and systems of a multi-chip package (MCP) containing a self-diagnostic scheme for detecting errors in the MCP. The MCP generally comprises a controller, at least one volatile memory chip having error detection logic, at least one non-volatile memory chip, and at least one fail signature register for storing fail signature data related to memory errors detected in the MCP. The controller can poll the fail signature register for fail signature data related to memory errors stored therein. Upon detection of fail signature data, the controller can store the fail signature data on a fail signature register located on a non-volatile memory. | 05-21-2009 |
20090200652 | METHOD FOR STACKING CHIPS IN A MULTI-CHIP PACKAGE - A multi-chip package is provided that has at least a first, second and third chip, each comprising a top and bottom surface. The multi-chip package also has a package substrate for interfacing with a printed circuit board (PCB). The chips and the package substrate are housed within an encapsulation material. The bottom surface of the first chip is attached to the package substrate. The top surface of the first chip has a first plurality of landing pads, which serve as a mechanical and electrical interface between the first and second chip. The bottom surface of the second chip has a second plurality of landing pads that serve as a mechanical and electrical interface between the second and first chip. Additionally, the top surface of the second chip has a third plurality of landing pads that serve as a mechanical and electrical interface between the second and third chip. | 08-13-2009 |
Patent application number | Description | Published |
20090012264 | Microwave-Assisted Peptide Synthesis - An instrument and method for accelerating the solid phase synthesis of peptides is disclosed. The method includes the steps of deprotecting a protected first amino acid linked to a solid phase resin by admixing the protected linked acid with a deprotecting solution in a microwave transparent vessel while irradiating the admixed acid and solution with microwaves, then activating a second amino acid by adding the second acid and an activating solution to the same vessel while irradiating the vessel with microwaves, then coupling the second amino acid to the first acid while irradiating the composition in the same vessel with microwaves, and cleaving the linked peptide from the solid phase resin by admixing the linked peptide with a cleaving composition in the same vessel while irradiating the composition with microwaves. | 01-08-2009 |
20090221792 | Microwave-Assisted Peptide Synthesis - An instrument and associated method are disclosed for the accelerated synthesis of peptides by the solid phase method. The instrument includes a microwave cavity, a microwave source in communication with the cavity, a column in the cavity formed of a material that is transparent to microwave radiation, a solid phase peptide support resin in the column, respective filters for maintaining the solid phase support resin in the column, a first passageway for adding starting compositions to the column, a second passageway for removing compositions from the column, and a third passageway for circulating compositions from the column into the third passageway and back to the column. | 09-03-2009 |
20100044368 | Method and Apparatus for Continuous Flow Microwave-Assisted Chemistry Techniques - The invention is a method and associated instrument for microwave assisted chemistry. The invention includes the steps of directing a continuous flow of fluid through a microwave cavity while applying microwave radiation to the cavity and to the continuous flow of materials therein, monitoring the pressure of the fluid in the cavity; and cooling the fluid in the cavity when the pressure exceeds a predetermined setpoint pressure. | 02-25-2010 |
20100048865 | MICROWAVE-ASSISTED PEPTIDE SYNTHESIS - An instrument and method for accelerating the solid phase synthesis of peptides are disclosed. The method includes the steps of deprotecting a protected first amino acid linked to a solid phase resin by admixing the protected linked acid with a deprotecting solution in a microwave transparent vessel while irradiating the admixed acid and solution with microwaves, activating a second amino acid, coupling the second amino acid to the first acid while irradiating the composition in the same vessel with microwaves, and cleaving the linked peptide from the solid phase resin by admixing the linked peptide with a cleaving composition in the same vessel while irradiating the composition with microwaves. | 02-25-2010 |
20120055781 | MICROWAVE-ASSISTED PEPTIDE SYNTHESIS - An instrument and method for accelerating the solid phase synthesis of peptides are disclosed. The method includes the steps of deprotecting a protected first amino acid linked to a solid phase resin by admixing the protected linked acid with a deprotecting solution in a microwave transparent vessel while irradiating the admixed acid and solution with microwaves, activating a second amino acid, coupling the second amino acid to the first acid while irradiating the composition in the same vessel with microwaves, and cleaving the linked peptide from the solid phase resin by admixing the linked peptide with a cleaving composition in the same vessel while irradiating the composition with microwaves. | 03-08-2012 |
20130228449 | MICROWAVE-ASSISTED PEPTIDE SYNTHESIS - An instrument and method for accelerating the solid phase synthesis of peptides are disclosed. The method includes the steps of deprotecting a protected first amino acid linked to a solid phase resin by admixing the protected linked acid with a deprotecting solution in a microwave transparent vessel while irradiating the admixed acid and solution with microwaves, activating a second amino acid, coupling the second amino acid to the first acid while irradiating the composition in the same vessel with microwaves, and cleaving the linked peptide from the solid phase resin by admixing the linked peptide with a cleaving composition in the same vessel while irradiating the composition with microwaves. | 09-05-2013 |
20150027874 | MICROWAVE-ASSISTED PEPTIDE SYNTHESIS - An instrument and method for accelerating the solid phase synthesis of peptides are disclosed. The method includes the steps of deprotecting a protected first amino acid linked to a solid phase resin by admixing the protected linked acid with a deprotecting solution in a microwave transparent vessel while irradiating the admixed acid and solution with microwaves, activating a second amino acid, coupling the second amino acid to the first acid while irradiating the composition in the same vessel with microwaves, and cleaving the linked peptide from the solid phase resin by admixing the linked peptide with a cleaving composition in the same vessel while irradiating the composition with microwaves. | 01-29-2015 |