Patent application number | Description | Published |
20110223652 | PIEZOELECTRIC-BASED NANOPORE DEVICE FOR THE ACTIVE CONTROL OF THE MOTION OF POLYMERS THROUGH THE SAME - Apparatus, system, and methods are provided for utilizing piezoelectric material for controlling a polymer through a nanopore. A reservoir is formed filled with conductive fluid. A membrane is formed that separates the reservoir. A nanopore is formed through the membrane. The membrane comprises electrical conductive layers, piezoelectric layers, and insulating layers. The piezoelectric layers are operative to control a size of the nanopore for clamping/releasing a polymer as well as to control the thickness of part of the membrane when a voltage is applied to the piezoelectric layers. Combinations of clamping/releasing the polymer and changing the thickness of part of the membrane can move a polymer through the nanopore at any electrically controlled speed and also stretch or break a polymer in the nanopore. | 09-15-2011 |
20110224098 | Nanopore Based Device for Cutting Long DNA Molecules into Fragments - Apparatus, system, and method are provided for cutting a linear charged polymer inside a nanopore. A first voltage is applied to create an electric field in a first direction. A second voltage is applied to create an electric field in a second direction, and the first direction is opposite to the second direction. When the electric field in the first direction and the electric field in the second direction are applied to a linear charged polymer inside a nanopore, the linear charged polymer is cut at a location with predetermined accuracy. | 09-15-2011 |
20110308949 | NANO-FLUIDIC FIELD EFFECTIVE DEVICE TO CONTROL DNA TRANSPORT THROUGH THE SAME - The present invention provides a nano-fluidic field effective device. The device includes a channel having a first side and a second side, a first set of electrodes adjacent to the first side, a second set of electrodes adjacent to the second side, a control unit for applying electric potentials to the electrodes and a fluid within the channel containing a charge molecule. The first set of electrodes is disposed such that application of electric potentials produces a spatially varying electric field that confines a charged molecule within a predetermined area of said channel. The second set of electrodes is disposed such that application of electric potentials relative to the electric potentials applied to the first set of electrodes creates an electric field that confines the charged molecule to an area away from the second side of the channel. | 12-22-2011 |
20110308969 | REDUCING CORROSION AND WATER DECOMPOSITION ON A SURFACE OF A TITANIUM NITRIDE ELECTRODE - The present invention provides a method of reducing corrosion and water decomposition on a surface of an electrode having a titanium nitride conductive layer disposed on a substrate and estimating extent of reduction thereof. The electrode is immersed into a solution containing a hydroxyl-functional compound. Thereafter, a voltage is applied to the titanium nitride conductive layer of the electrode. The extent of oxidation of the titanium nitride conductive layer is correlated with the extent of formation of oxide of titanium nitride and/or the extent of oxidation of the titanium nitride conductive layer is correlated with the increase of surface roughness. The extent of water decomposition is correlated with formation of hydrogen and oxygen bubbles. | 12-22-2011 |
20110312176 | FORMING AN ELECTRODE HAVING REDUCED CORROSION AND WATER DECOMPOSITION ON SURFACE USING AN ORGANIC PROTECTIVE LAYER - Accordingly, the present invention provides a method of forming an electrode having reduced corrosion and water decomposition on a surface thereof. A substrate which has a conductive layer disposed thereon is provided and the conductive layer has an oxide layer with an exposed surface. The exposed surface of the oxide layer contacts a solution of an organic surface active compound in an organic solvent to form a protective layer of the organic surface active compound over the oxide layer. The protective layer has a thickness of from about 0.5 nm to about 5 nm and ranges therebetween depending on a chemical structure of the surface active compound. | 12-22-2011 |
20120298510 | NANOPORE BASED DEVICE FOR CUTTING LONG DNA MOLECULES INTO FRAGMENTS - Apparatus, system, and method are provided for cutting a linear charged polymer inside a nanopore. A first voltage is applied to create an electric field in a first direction. A second voltage is applied to create an electric field in a second direction, and the first direction is opposite to the second direction. When the electric field in the first direction and the electric field in the second direction are applied to a linear charged polymer inside a nanopore, the linear charged polymer is cut at a location with predetermined accuracy. | 11-29-2012 |
20130062206 | EMBEDDING A NANOTUBE INSIDE A NANOPORE FOR DNA TRANSLOCATION - A technique for embedding a nanotube in a nanopore is provided. A membrane separates a reservoir into a first reservoir part and a second reservoir part, and the nanopore is formed through the membrane for connecting the first and second reservoir parts. An ionic fluid fills the nanopore, the first reservoir part, and the second reservoir part. A first electrode is dipped in the first reservoir part, and a second electrode is dipped in the second reservoir part. Driving the nanotube into the nanopore causes an inner surface of the nanopore to form a covalent bond to an outer surface of the nanotube via an organic coating so that the inner surface of the nanotube will be the new nanopore with a super smooth surface for studying bio-molecules while they translocate through the nanotube. | 03-14-2013 |
20130062212 | EMBEDDING A NANOTUBE INSIDE A NANOPORE FOR DNA TRANSLOCATION - A technique for embedding a nanotube in a nanopore is provided. A membrane separates a reservoir into a first reservoir part and a second reservoir part, and the nanopore is formed through the membrane for connecting the first and second reservoir parts. An ionic fluid fills the nanopore, the first reservoir part, and the second reservoir part. A first electrode is dipped in the first reservoir part, and a second electrode is dipped in the second reservoir part. Driving the nanotube into the nanopore causes an inner surface of the nanopore to form a covalent bond to an outer surface of the nanotube via an organic coating so that the inner surface of the nanotube will be the new nanopore with a super smooth surface for studying bio-molecules while they translocate through the nanotube. | 03-14-2013 |
20130068617 | CHARGED ENTITIES AS LOCOMOTIVE TO CONTROL MOTION OF POLYMERS THROUGH A NANOCHANNEL - A technique for controlling the motion of one or more charged entities linked to a polymer through a nanochannel is provided. A first reservoir and a second reservoir are connected by the nanochannel. An array of electrodes is positioned along the nanochannel, where fluid fills the first reservoir, the second reservoir, and the nanochannel. A first electrode is in the first reservoir and a second electrode is in the second reservoir. The first and second electrodes are configured to direct the one or more charged entities linked to the polymer into the nanochannel. An array of electrodes is configured to trap the one or more charged entities in the nanochannel responsive to being controlled for trapping. The array of electrodes is configured to move the one or more charged entities along the nanochannel responsive to being controlled for moving. | 03-21-2013 |
20130068618 | CHARGED ENTITIES AS LOCOMOTIVE TO CONTROL MOTION OF POLYMERS THROUGH A NANOCHANNEL - A technique for controlling the motion of one or more charged entities linked to a polymer through a nanochannel is provided. A first reservoir and a second reservoir are connected by the nanochannel. An array of electrodes is positioned along the nanochannel, where fluid fills the first reservoir, the second reservoir, and the nanochannel. A first electrode is in the first reservoir and a second electrode is in the second reservoir. The first and second electrodes are configured to direct the one or more charged entities linked to the polymer into the nanochannel. An array of electrodes is configured to trap the one or more charged entities in the nanochannel responsive to being controlled for trapping. The array of electrodes is configured to move the one or more charged entities along the nanochannel responsive to being controlled for moving. | 03-21-2013 |
20150068902 | NANO-FLUIDIC FIELD EFFECTIVE DEVICE TO CONTROL DNA TRANSPORT THROUGH THE SAME - The present invention provides a nano-fluidic field effective device. The device includes a channel having a first side and a second side, a first set of electrodes adjacent to the first side, a second set of electrodes adjacent to the second side, a control unit for applying electric potentials to the electrodes and a fluid within the channel containing a charge molecule. The first set of electrodes is disposed such that application of electric potentials produces a spatially varying electric field that confines a charged molecule within a predetermined area of said channel. The second set of electrodes is disposed such that application of electric potentials relative to the electric potentials applied to the first set of electrodes creates an electric field that confines the charged molecule to an area away from the second side of the channel. | 03-12-2015 |
Patent application number | Description | Published |
20140174930 | BASE-BY-BASE RATCHETING OF DNA/RNA IN A Y-SHAPED NANOCHANNEL - A mechanism is provided for ratcheting a double strand molecule. The double strand molecule is driven into a Y-channel of a membrane by a first voltage pulse. The Y-channel includes a stem and branches, and the branches are connected to the stem at a junction. The double strand molecule is slowed at the junction of the Y-channel based on the first voltage pulse being weaker than a force required to break a base pair of the double strand molecule. The double strand molecule is split into a first single strand and a second single strand by driving the double strand molecule into the junction of the Y-channel at a second voltage pulse. | 06-26-2014 |
20140318962 | NANOPORE DEVICE FOR DRUG-LIKE MOLECULE SCREENING OR LEAD OPTIMIZATION TO A TARGETED PROTEIN - A nanosensor for detecting molecule characteristics includes a membrane having an opening configured to permit a charged molecule to pass but to block a protein molecule attached to a ligand connecting to the charged molecule, the opening being filled with an electrolytic solution. An electric field generator is configured to generate an electric field relative to the opening to drive the charged molecule through the opening. A sensor circuit is coupled to the electric field generator to sense current changes due to charged molecules passing into the opening. The current changes are employed to trigger a bias field increase to cause separation between the ligand and the protein to infer an interaction strength. | 10-30-2014 |
20140318968 | NANOPORE SENSOR FOR DETECTING MOLECULAR INTERACTIONS - A nanosensor for detecting molecule characteristics includes a membrane having an opening configured to permit a charged carbon nanotube to pass but to block a molecule attached to the carbon nanotube. The opening is filled with an electrolytic solution. An electric field generator is configured to generate an electric field relative to the opening to drive the charged carbon nanotubes through the opening. A sensor circuit is coupled to the electric field generator to sense current changes due to charged carbon nanotubes passing into the opening, and to bias the electric field generator to determine a critical voltage related to a force of separation between the carbon nanotube and the molecule. | 10-30-2014 |
20140318970 | NANOPORE DEVICE FOR DRUG-LIKE MOLECULE SCREENING OR LEAD OPTIMIZATION TO A TARGETED PROTEIN - A nanosensor for detecting molecule characteristics includes a membrane having an opening configured to permit a charged molecule to pass but to block a protein molecule attached to a ligand connecting to the charged molecule, the opening being filled with an electrolytic solution. An electric field generator is configured to generate an electric field relative to the opening to drive the charged molecule through the opening. A sensor circuit is coupled to the electric field generator to sense current changes due to charged molecules passing into the opening. The current changes are employed to trigger a bias field increase to cause separation between the ligand and the protein to infer an interaction strength. | 10-30-2014 |
20140318971 | NANOPORE SENSOR FOR DETECTING MOLECULAR INTERACTIONS - A nanosensor for detecting molecule characteristics includes a membrane having an opening configured to permit a charged carbon nanotube to pass but to block a molecule attached to the carbon nanotube. The opening is filled with an electrolytic solution. An electric field generator is configured to generate an electric field relative to the opening to drive the charged carbon nanotubes through the opening. A sensor circuit is coupled to the electric field generator to sense current changes due to charged carbon nanotubes passing into the opening, and to bias the electric field generator to determine a critical voltage related to a force of separation between the carbon nanotube and the molecule. | 10-30-2014 |
20150037787 | POLYNUCLEOTIDE CONFIGURATION FOR RELIABLE ELECTRICAL AND OPTICAL SENSING - A mixed polynucleotide includes a first double stranded (ds) portion, a second portion including at least one single stranded (ss) portion, and a third ds portion. The second portion connects the first ds portion and the third ds portion to provide a modified polynucleotide. | 02-05-2015 |
20150037843 | POLYNUCLEOTIDE CONFIGURATION FOR RELIABLE ELECTRICAL AND OPTICAL SENSING - A mixed polynucleotide includes a first double stranded (ds) portion, a second portion including at least one single stranded (ss) portion, and a third ds portion. The second portion connects the first ds portion and the third ds portion to provide a modified polynucleotide. | 02-05-2015 |
20150038691 | POLYNUCLEOTIDE CONFIGURATION FOR RELIABLE ELECTRICAL AND OPTICAL SENSING - A mixed polynucleotide includes a first double stranded (ds) portion, a second portion including at least one single stranded (ss) portion, and a third ds portion. The second portion connects the first ds portion and the third ds portion to provide a modified polynucleotide. | 02-05-2015 |
20150153305 | BASE-BY-BASE RATCHETING OF DNA/RNA IN A Y-SHAPED NANOCHANNEL - A mechanism is provided for ratcheting a double strand molecule. The double strand molecule is driven into a Y-channel of a membrane by a first voltage pulse. The Y-channel includes a stem and branches, and the branches are connected to the stem at a junction. The double strand molecule is slowed at the junction of the Y-channel based on the first voltage pulse being weaker than a force required to break a base pair of the double strand molecule. The double strand molecule is split into a first single strand and a second single strand by driving the double strand molecule into the junction of the Y-channel at a second voltage pulse. | 06-04-2015 |
20150153309 | BASE-BY-BASE RATCHETING OF DNA/RNA IN A Y-SHAPED NANOCHANNEL - A mechanism is provided for ratcheting a double strand molecule. The double strand molecule is driven into a Y-channel of a membrane by a first voltage pulse. The Y-channel includes a stem and branches, and the branches are connected to the stem at a junction. The double strand molecule is slowed at the junction of the Y-channel based on the first voltage pulse being weaker than a force required to break a base pair of the double strand molecule. The double strand molecule is split into a first single strand and a second single strand by driving the double strand molecule into the junction of the Y-channel at a second voltage pulse. | 06-04-2015 |
20150159209 | BASE-BY-BASE RATCHETING OF DNA/RNA IN A Y-SHAPED NANOCHANNEL - A mechanism is provided for ratcheting a double strand molecule. The double strand molecule is driven into a Y-channel of a membrane by a first voltage pulse. The Y-channel includes a stem and branches, and the branches are connected to the stem at a junction. The double strand molecule is slowed at the junction of the Y-channel based on the first voltage pulse being weaker than a force required to break a base pair of the double strand molecule. The double strand molecule is split into a first single strand and a second single strand by driving the double strand molecule into the junction of the Y-channel at a second voltage pulse. | 06-11-2015 |
20150275288 | ELECTRICAL TRAPPING AND STRETCHING OF CHARGED BIOMOLECULES BY SINGLE ELECTRODE GATING STRUCTURE - A technique is provided for controlling biomolecules in a nanodevice. A membrane has two reservoirs at opposing ends of the membrane. A nanochannel is formed in the membrane connecting the two reservoirs. A gate electrode is formed on the membrane such that the gate electrode extends laterally in a region of the nanochannel. A biomolecule is trapped in the nanochannel by applying a first voltage to the gate electrode. In response to trapping the biomolecule, the biomolecule is stretched in the nanochannel by applying a second voltage to the gate electrode. The biomolecule is stretched based on changing from the first voltage to the second voltage applied to the gate electrode. | 10-01-2015 |
20150276664 | NANO-RING GATE ELECTRODE NANOCHANNELS - A technique includes providing a nanodevice. A gate electrode structure has nanochannels with a first end connected to a first common trench and a second end connected to a second common trench. A gate electrode extends laterally as a continuous line on the gate electrode structure and is formed in each of the nanochannels. The gate electrode forms a separate nano-ring electrode around a partial circumference inside each of the nanochannels. The gate electrode is parallel to the first and second common trenches and is perpendicular to the nanochannels. | 10-01-2015 |
20150276665 | NANO-RING GATE ELECTRODE NANOCHANNELS - A technique includes providing a nanodevice. A gate electrode structure has nanochannels with a first end connected to a first common trench and a second end connected to a second common trench. A gate electrode extends laterally as a continuous line on the gate electrode structure and is formed in each of the nanochannels. The gate electrode forms a separate nano-ring electrode around a partial circumference inside each of the nanochannels. The gate electrode is parallel to the first and second common trenches and is perpendicular to the nanochannels. | 10-01-2015 |
20150323490 | Increasing the Capture Zone by Nanostructure Patterns - Techniques for increasing the capture zone in nano and microchannel-based polymer testing structures using concentric arrangements of nanostructures, such as nanopillars are provided. In one aspect, a testing structure for testing polymers is provided that includes a first fluid reservoir and a second fluid reservoir formed in an electrically insulating substrate; at least one channel formed in the insulating substrate that interconnects the first fluid reservoir and the second fluid reservoir; and an arrangement of nanostructures within either the first fluid reservoir or the second fluid reservoir wherein the nanostructures are arranged so as to form multiple concentric circles inside either the first fluid reservoir or the second fluid reservoir with each of the concentric circles being centered at an entry point of the channel. A method of analyzing a polymer using the testing structure is also provided. | 11-12-2015 |
Patent application number | Description | Published |
20120193231 | DNA SEQUENCING USING MULTIPLE METAL LAYER STRUCTURE WITH ORGANIC COATINGS FORMING TRANSIENT BONDING TO DNA BASES - A nanodevice is provided. A reservoir is filled with an ionic fluid. A membrane separates the reservoir, and the membrane includes electrode layers separated by insulating layers in which the electrode layers have an organic coating. A nanopore is formed through the membrane, and the organic coating on the electrode layers forms transient bonds to a base of a molecule in the nanopore. When a first voltage is applied to the electrode layers a tunneling current is generated by the base in the nanopore, and the tunneling current travels through the transient bonds formed to the base to be measured as a current signature for distinguishing the base. | 08-02-2012 |
20120193235 | DNA MOTION CONTROL BASED ON NANOPORE WITH ORGANIC COATING FORMING TRANSIENT BONDING TO DNA - A nanodevice includes a reservoir filled with a conductive fluid and a membrane separating the reservoir. The membrane includes an insulating layer. A nanopore is formed through the membrane, and an organic coating is provided on the insulating layer to form a transient bond to a DNA molecule in the nanopore. The transient bond is stronger than thermal motion, such that the transient bond can hold the DNA molecule against the thermal motion. When a voltage is applied across the membrane, the voltage will break the transient bond to move the DNA molecule through the nanopore in a controllable state. | 08-02-2012 |
20120193237 | DNA SEQUENCING USING MULTIPLE METAL LAYER STRUCTURE WITH DIFFERENT ORGANIC COATINGS FORMING DIFFERENT TRANSIENT BONDINGS TO DNA - A nanodevice includes a reservoir filled with conductive fluid and a membrane separating the reservoir. A nanopore is formed through the membrane having electrode layers separated by insulating layers. A certain electrode layer has a first type of organic coating and a pair of electrode layers has a second type. The first type of organic coating forms a motion control transient bond to a molecule in the nanopore for motion control, and the second type forms first and second transient bonds to different bonding sites of a base of the molecule. When a voltage is applied to the pair of electrode layers a tunneling current is generated by the base in the nanopore, and the tunneling current travels via the first and second transient bonds formed to be measured as a current signature for distinguishing the base. The motion control transient bond is stronger than first and second transient bonds. | 08-02-2012 |
20130001082 | DNA SEQUENCING USING MULTIPLE METAL LAYER STRUCTURE WITH ORGANIC COATINGS FORMING TRANSIENT BONDING TO DNA BASES - A technique for nanodevice is provided. A reservoir is filled with an ionic fluid. A membrane separates the reservoir, and the membrane includes electrode layers separated by insulating layers in which the electrode layers have an organic coating. A nanopore is formed through the membrane, and the organic coating on the electrode layers forms transient bonds to a base of a molecule in the nanopore. When a first voltage is applied to the electrode layers a tunneling current is generated by the base in the nanopore, and the tunneling current travels through the transient bonds formed to the base to be measured as a current signature for distinguishing the base. | 01-03-2013 |
20130264219 | FUNCTIONALLY SWITCHABLE SELF-ASSEMBLED COATING COMPOUND FOR CONTROLLING TRANSLOCATION OF MOLECULE THROUGH NANOPORES - A technique for a nanodevice is provided. The nanodevice includes a fluidic cell, and a membrane dividing the fluidic cell. A nanopore is formed through the membrane, and the nanopore is coated with an organic compound. A first part of the organic compound binds to a surface of the nanopore and a second part of the organic compound is exposed freely inside of the nanopore. The second part of the organic compound is configured to be switched among a first neutral hydrophilic end group, a second negatively charged hydrophilic end group, and a third neutral hydrophobic end group based on a switching mechanism. | 10-10-2013 |
20130313501 | DRIFT-INSENSITIVE OR INVARIANT MATERIAL FOR PHASE CHANGE MEMORY - A method of storing a bit at a memory device is disclosed. A memory cell the memory device is formed of a germanium-deficient chalcogenide glass configured to alternate between an amorphous phase and a crystalline phase upon application of a selected voltage, wherein a drift coefficient of the germanium-deficient chalcogenide glass is less than a drift coefficient of an undoped chalcogenide glass. A voltage is applied to the formed memory cell to select one of the amorphous phase and the crystalline phase to store the bit. | 11-28-2013 |
20130314983 | DRIFT-INSENSITIVE OR INVARIANT MATERIAL FOR PHASE CHANGE MEMORY - A method of storing a bit at a memory device is disclosed. A memory cell the memory device is formed of a germanium-deficient chalcogenide glass configured to alternate between an amorphous phase and a crystalline phase upon application of a selected voltage, wherein a drift coefficient of the germanium-deficient chalcogenide glass is less than a drift coefficient of an undoped chalcogenide glass. A voltage is applied to the formed memory cell to select one of the amorphous phase and the crystalline phase to store the bit. | 11-28-2013 |
20140190932 | SELF-FORMED NANOMETER CHANNEL AT WAFER SCALE - A mechanism is provided for fabricating nanochannels for a nanodevice. Insulating film is deposited on a substrate. A nanowire is patterned on the film. Insulating material is deposited on the nanowire and film. A first circular hole is formed in the insulating material as an inlet, over a first tip of the nanowire to expose the first tip. A second circular hole is formed as an outlet, over a second tip of the nanowire opposite the first tip to expose the second tip. A nanochannel connects the first and second holes by etching away the nanowire via an etchant in the first and the second holes. A first reservoir is attached over the first hole in connection with the nanochannel at a previous location of the first tip. A second reservoir is attached over the second hole in connection with the nanochannel at a previous location of the second tip. | 07-10-2014 |
20150160159 | DNA SEQUENCING USING MULTIPLE METAL LAYER STRUCTURE WITH DIFFERENT ORGANIC COATINGS FORMING DIFFERENT TRANSIENT BONDINGS TO DNA - A nanodevice includes a reservoir filled with conductive fluid and a membrane separating the reservoir. A nanopore is formed through the membrane having electrode layers separated by insulating layers. A certain electrode layer has a first type of organic coating and a pair of electrode layers has a second type. The first type of organic coating forms a motion control transient bond to a molecule in the nanopore for motion control, and the second type forms first and second transient bonds to different bonding sites of a base of the molecule. When a voltage is applied to the pair of electrode layers a tunneling current is generated by the base in the nanopore, and the tunneling current travels via the first and second transient bonds formed to be measured as a current signature for distinguishing the base. The motion control transient bond is stronger than first and second transient bonds. | 06-11-2015 |
Patent application number | Description | Published |
20110284970 | Transistor Device and Methods of Manufacture Thereof - Methods of forming transistor devices and structures thereof are disclosed. A first dielectric material is formed over a workpiece, and a second dielectric material is formed over the first dielectric material. The workpiece is annealed, causing a portion of the second dielectric material to combine with the first dielectric material and form a third dielectric material. The second dielectric material is removed, and a gate material is formed over the third dielectric material. The gate material and the third dielectric material are patterned to form at least one transistor. | 11-24-2011 |
20120199909 | Semiconductor Devices and Methods of Manufacture Thereof - Semiconductor devices and methods of manufacture thereof are disclosed. A complimentary metal oxide semiconductor (CMOS) device includes a PMOS transistor having at least two first gate electrodes comprising a first parameter, and an NMOS transistor having at least two second gate electrodes comprising a second parameter, wherein the second parameter is different than the first parameter. The first parameter and the second parameter may comprise the thickness or the dopant profile of the gate electrode materials of the PMOS and NMOS transistors. The first and second parameter of the at least two first gate electrodes and the at least two second gate electrodes establish the work function of the PMOS and NMOS transistors, respectively. | 08-09-2012 |
20140203366 | Semiconductor Devices and Methods of Manufacture Thereof - Semiconductor devices and methods of manufacture thereof are disclosed. A complimentary metal oxide semiconductor (CMOS) device includes a PMOS transistor having at least two first gate electrodes comprising a first parameter, and an NMOS transistor having at least two second gate electrodes comprising a second parameter, wherein the second parameter is different than the first parameter. The first parameter and the second parameter may comprise the thickness or the dopant profile of the gate electrode materials of the PMOS and NMOS transistors. The first and second parameter of the at least two first gate electrodes and the at least two second gate electrodes establish the work function of the PMOS and NMOS transistors, respectively. | 07-24-2014 |
Patent application number | Description | Published |
20090136495 | ANTI-HEPCIDIN ANTIBODIES AND USES THEREOF - Monoclonal antibodies are provided that selectively bind human hepcidin-25 and are characterized as having high affinity for human hepcidin-25 and strong human mature hepcidin neutralizing properties. The antibodies of the invention are useful therapeutically for increasing serum iron levels, reticulocyte count, red blood cell count, hemoglobin, and/or hematocrit in a human and for the treatment and diagnosis of mature hepcidin-promoted disorders such as anemia, in a human subject. | 05-28-2009 |
20090170192 | METHODS AND DNA CONSTRUCTS FOR HIGH YIELD PRODUCTION OF POLYPEPTIDES - The invention provides an inclusion body fusion partner to increase peptide and polypeptide production in a cell. | 07-02-2009 |
20110189190 | ANTI-HEPCIDIN-25 SELECTIVE ANTIBODIES AND USES THEREOF - Monoclonal antibodies are provided that bind to the N-terminus of human hepcidin-25 and are characterized as having high affinity and selectivity for the polypeptide. The antibodies of the invention are useful for increasing serum iron levels, reticulocyte count, red blood cell count, hemoglobin, and/or hematocrit in a human and for the treatment of various disorders, such as anemia, in a human subject. The antibodies of the invention are also useful as analytical tools, such as in sandwich ELISA. | 08-04-2011 |
Patent application number | Description | Published |
20130054670 | SYSTEM AND METHODS FOR PERFORMING MEDICAL PHYSICS CALCULATION - A method of calculating radiation fluence and energy deposition distributions on a networked virtual computational cluster is presented. With this method, complex Monte Carlo simulations that require expansive equipment, personnel, and financial resources can be done efficiently and inexpensively by hospitals and clinics requiring radiation therapy dose calculations. | 02-28-2013 |
20140107394 | SYSTEM AND METHODS FOR USING A DYNAMIC SCHEME FOR RADIOSURGERY - The present invention is a method and system for developing a dynamic scheme for Gamma Knife radiosurgery based on the concept of “dose-painting” to take advantage of robotic patient positioning systems on the Gamma Knife C and Perfexion units. The spherical high dose volume created by the Gamma Knife unit will be viewed as a 3D spherical “paintbrush”, and treatment planning is reduced to finding the best route of this “paintbrush” to “paint” a 3D tumor volume. Under the dose-painting concept, Gamma Knife radiosurgery becomes dynamic, where the patient is moving continuously under the robotic positioning system. | 04-17-2014 |
20140341352 | SYSTEM AND METHODS OF PHOTON-BASED RADIOTHERAPY AND RADIOSURGERY DELIVERY - Photon-based radiosurgery is widely used for treating local and regional tumors. The key to improving the quality of radiosurgery is to increase the dose falloff rate from high dose regions inside the tumor to low dose regions of nearby healthy tissues and structures. Dynamic photon painting (DPP) further increases dose falloff rate by treating a target by moving a beam source along a dynamic trajectory, where the speed, direction and even dose rate of the beam source change constantly during irradiation. DPP creates dose gradient that rivals proton Bragg. Peak and outperforms Gamma Knife® radiosurgery. | 11-20-2014 |
Patent application number | Description | Published |
20090257946 | METHOD AND APPARATUS FOR PRESSURIZED CALCINATION OF GYPSUM - A method for calcining gypsum in a pressurized reactor by injecting combustion gases and air into the pressurized reactor to create a fluidized bed of gypsum, and heating the fluidized bed of gypsum in the pressurized reactor sufficiently to form a calcined hemihydrate. | 10-15-2009 |
20110195241 | Low Weight and Density Fire-Resistant Gypsum Panel - An about ⅝ inch to ¾ inch thick low weight, low density gypsum panel with fire resistance capabilities sufficient to provide a Thermal Insulation Index of at least 17.0 minutes which when subjected to U419 test procedures will not fail for at least 30 minutes and, in selected embodiments, also has outstanding water resistance properties. | 08-11-2011 |
20120219785 | LIGHTWEIGHT, REDUCED DENSITY FIRE RATED GYPSUM PANELS - A reduced weight, reduced density gypsum panel that includes high expansion vermiculite with fire resistance capabilities that are at least comparable to (if not better than) commercial fire rated gypsum panels with a much greater gypsum content, weight and density. | 08-30-2012 |
20130068364 | METHOD OF MAKING LIGHTWEIGHT, REDUCED DENSITY FIRE RATED GYPSUM PANELS - A reduced weight, reduced density gypsum panel that includes high expansion vermiculite with fire resistance capabilities that are at least comparable to (if not better than) commercial fire rated gypsum panels with a much greater gypsum content, weight and density. | 03-21-2013 |
20140158273 | LIGHTWEIGHT, REDUCED DENSITY FIRE RATED GYPSUM PANELS - A reduced weight, reduced density gypsum panel that includes high expansion vermiculite with fire resistance capabilities that are at least comparable to (if not better than) commercial fire rated gypsum panels with a much greater gypsum content, weight and density. | 06-12-2014 |
20150306846 | SILOXANE COMPOSITIONS AND METHODS FOR REDUCING VOC AND SILOXANE DUST - An improved water-resistant gypsum product prepared with a high-viscosity siloxane is provided. A fuel-efficient method for making the product and reducing the amount of siloxane dust released is provided as well. | 10-29-2015 |
Patent application number | Description | Published |
20080274507 | METHODS OF PROTEIN PRODUCTION USING ANTI-SENESCENCE COMPOUNDS - Methods of producing a protein in cell culture comprising an anti-senescence compound, such as the antioxidant carnosine, are provided. According to teachings of the present invention, cells grown in a cell culture medium comprising an anti-senescence compound exhibit increased viability and productivity. Furthermore, cell cultures grown in the presence of an anti-senescence compound exhibit decreased levels of high molecular weight aggregates in the cell culture medium. | 11-06-2008 |
20090068705 | Use of Copper Glutamate in Cell Culture for Production of Polypeptides - An improved system for large scale production of polypeptides in cell culture is provided. In accordance with the present invention, cells expressing a polypeptide of interest are grown in media that contain copper, glutamate or both. The use of such a system allows production of polypeptides in which misfolding and/or aggregation are reduced, and in which total glycosylation is increased. Polypeptides expressed in accordance with the present invention may be advantageously used in the preparation of pharmaceutical, agricultural or other commercial compositions. | 03-12-2009 |
20090317867 | METHODS FOR ENHANCED PRODUCTION OF BONE MORPHOGENETIC PROTEINS - Methods and processes for improved recombinant protein production are provided. The methods are useful for production of growth factors, particularly those of the TGF-β superfamily, including bone morphogenetic proteins (BMPs), such as BMP-2. Suitable host cells are cultured in media where iron is present at a concentration of at least 2.25 μM and if pyridoxal is present, it makes up less than 55% of the molar concentration of vitamin B6 in the media. | 12-24-2009 |
20130084593 | RATIONALLY DESIGNED MEDIA FOR CELL CULTURE - This invention relates to methods for rationally designing cell culture media for use in cell cultures, e.g., cell cultures employed in polypeptide production; cell culture media designed with the disclosed methods; methods of producing a polypeptide of interest, e.g., an antibody, using such media; polypeptides produced using the methods and media disclosed herein; and pharmaceuticals compositions containing such polypeptides. The rationally designed media contain a concentration of an amino acid that is calculated for use in cell mass, a concentration of the amino acid that is calculated for use in cell maintenance, and a concentration of the amino acid that is calculated for incorporation into the polypeptide of interest. | 04-04-2013 |
20140322758 | ADDITION OF IRON TO IMPROVE CELL CULTURE - The present invention provides, among other things methods of increasing cell density, viability and/or titer in a cell culture including steps of adding a composition comprising iron to the cell culture. | 10-30-2014 |
Patent application number | Description | Published |
20110017223 | AMPHIPHILE-MODIFIED SORBENTS IN SMOKING ARTICLES AND FILTERS - Smoking articles which involve the use of amphiphile-modified sorbents are disclosed. The amphiphile-modified sorbent has at least one amphiphilic compound bound to an inorganic molecular sieve substrate. The amphiphile-modified sorbent selectively removes certain constituents from cigarette smoke, while maintaining other constituents, such as those that contribute to flavor. Methods for making cigarette filters and smoking articles using amphiphile-modified sorbents, as well as methods for smoking a cigarette containing an amphiphile-modified sorbent, are also provided. | 01-27-2011 |
20110083684 | METHODS FOR REMOVING HEAVY METALS FROM AQUEOUS EXTRACTS OF TOBACCO - Disclosed is a method for removing one or more heavy metals from an aqueous plant extract, comprising: contacting the aqueous plant extract with, and sorbing at least a portion of the one or more heavy metals on, at least one sorbent selected from the group consisting of: one or more surface activated titanium oxide particles, one or more chitosans, one or more calcium phosphates, one or more mercaptoalkyl-substituted silica gels, one or more mercaptoalkyl-substituted mesoporous molecular sieves, one or more finely ground γ-aluminas, one or more photocatalytic titanium dioxide particles, one or more Au-anatases, ceria, and combinations thereof, to form a mixture of sorbent and heavy metal-depleted aqueous plant extract; and separating the sorbent from the mixture to provide a heavy metal-depleted aqueous plant extract. | 04-14-2011 |
20120247491 | SMOKING ARTICLES COMPRISING COPPER-EXCHANGED MOLECULAR SIEVES - Smoking articles which involve the use of a copper-exchanged molecular sieve catalyst that is capable of removing NO and/or NO | 10-04-2012 |
20130146072 | COMPOSITE MATERIALS AND THEIR USE IN SMOKING ARTICLES - Smoking articles, filters, and methods for selectively removing selected components from tobacco smoke are disclosed. The smoking articles and filters include composites composed of a porous alumina and/or aluminosilicate matrix containing particles of activated carbon and zeolite molecular sieve adsorbents distributed throughout the matrix which can selectively remove selected components of tobacco smoke. The composites may be made by admixing the adsorbent mixture and a binder such as aluminum hydroxide or montmorillonite clay, adding an aqueous mineral acid to gel the mixture and drying and firing the gel paste. The proportions and adsorption capacities of the components can be selected to tailor the adsorption characteristics of the composites to selectively remove targeted constituents such as acrolein and 1,3-butadiene in tobacco smoke. Methods for making filters and smoking articles using the composites, as well as methods for smoking products comprising the composites, are also provided. | 06-13-2013 |