Patent application number | Description | Published |
20110040281 | INTEGRATED VASCULAR DELIVERY SYSTEM - An integrated vascular delivery system having a frame configured to receive a catheter insertable in a patient to deliver fluid at an insertion site. The frame includes a first hub, a second hub, and a pair of flexible lateral members extending between the hubs and including a tubular lateral member. The system also includes a fluidic channel that fluidically communicates with the catheter, wherein the fluidic channel passes through the tubular lateral member and at least one of the hubs, and includes a fixed turnabout portion in which fluid flows in a direction different from that within the catheter. The first and second hubs provide anchoring points on the patient distributed around the insertion site and on opposite ends of the catheter, thereby anchoring the frame to the patient and stabilizing the catheter. A method is provided for using an integrated vascular delivery system. | 02-17-2011 |
20130053650 | INTEGRATED VASCULAR DELIVERY SYSTEM - An integrated vascular delivery system having a frame configured to receive a catheter insertable in a patient to deliver fluid at an insertion site. The frame includes a first hub, a second hub, and a pair of flexible lateral members extending between the hubs and including a tubular lateral member. The system also includes a fluidic channel that fluidically communicates with the catheter, wherein the fluidic channel passes through the tubular lateral member and at least one of the hubs, and includes a fixed turnabout portion in which fluid flows in a direction different from that within the catheter. The first and second hubs provide anchoring points on the patient distributed around the insertion site and on opposite ends of the catheter, thereby anchoring the frame to the patient and stabilizing the catheter. A method is provided for using an integrated vascular delivery system. | 02-28-2013 |
20130289487 | INTEGRATED VASCULAR DELIVERY SYSTEM - An integrated vascular delivery system having a frame configured to receive a catheter insertable in a patient to deliver fluid at an insertion site. The frame includes a first hub, a second hub, and a pair of flexible lateral members extending between the hubs and including a tubular lateral member. The system also includes a fluidic channel that fluidically communicates with the catheter, wherein the fluidic channel passes through the tubular lateral member and at least one of the hubs, and includes a fixed turnabout portion in which fluid flows in a direction different from that within the catheter. The first and second hubs provide anchoring points on the patient distributed around the insertion site and on opposite ends of the catheter, thereby anchoring the frame to the patient and stabilizing the catheter. A method is provided for using an integrated vascular delivery system. | 10-31-2013 |
20140221933 | INTEGRATED VASCULAR DELIVERY SYSTEM - An integrated vascular delivery system having a frame configured to receive a catheter insertable in a patient to deliver fluid at an insertion site. The frame includes a first hub, a second hub, and a pair of flexible lateral members extending between the hubs and including a tubular lateral member. The system also includes a fluidic channel that fluidically communicates with the catheter, wherein the fluidic channel passes through the tubular lateral member and at least one of the hubs, and includes a fixed turnabout portion in which fluid flows in a direction different from that within the catheter. The first and second hubs provide anchoring points on the patient distributed around the insertion site and on opposite ends of the catheter, thereby anchoring the frame to the patient and stabilizing the catheter. A method is provided for using an integrated vascular delivery system. | 08-07-2014 |
20150151083 | INTEGRATED VASCULAR DELIVERY SYSTEM - An integrated vascular delivery system having a frame configured to receive a catheter insertable in a patient to deliver fluid at an insertion site. The frame includes a first hub, a second hub, and a pair of flexible lateral members extending between the hubs and including a tubular lateral member. The system also includes a fluidic channel that fluidically communicates with the catheter, wherein the fluidic channel passes through the tubular lateral member and at least one of the hubs, and includes a fixed turnabout portion in which fluid flows in a direction different from that within the catheter. The first and second hubs provide anchoring points on the patient distributed around the insertion site and on opposite ends of the catheter, thereby anchoring the frame to the patient and stabilizing the catheter. A method is provided for using an integrated vascular delivery system. | 06-04-2015 |
Patent application number | Description | Published |
20110288482 | SAFETY NEEDLE SYSTEM OPERABLE WITH A MEDICAL DEVICE - A safety needle system operable with a medical device includes: a housing with a needle mount having a needle; and a sheath telescopically engaged with the housing and surrounding the needle such that the sheath operates in a retracted position, in which the sheath exposes the needle, and an extended position, in which the sheath surrounds the needle. The sheath is coupleable to the medical device such that removal of the needle from the medical device draws the sheath over the needle, transitioning the sheath from the retracted position to the extended position. In one embodiment, the system includes a slider engaged with the sheath and/or housing and including a restraint that engages and disengages the sheath to respectively reinforce and weaken the coupling of the sheath and medical device. In another embodiment, the sheath includes a longitudinal track that slidingly engages a setting of the housing between sheath positions. | 11-24-2011 |
20110301541 | INTEGRATED VASCULAR DELIVERY SYSTEM - An integrated vascular delivery system and method of use, the system including: a frame having a catheter hub that provides a first anchoring point on the patient and receives a catheter insertable in the patient to transfer fluid at an insertion site, a stabilization hub that provides a second anchoring point on the patient, at least one lateral member extending between the catheter and stabilization hubs, and a fluidic channel. The frame operates in a folded configuration in which the hubs are coupleable and an unfolded configuration in which the anchoring points are distributed around the insertion site to anchor the frame to the patient, thereby stabilizing the catheter. In some embodiments, the system further includes a septum that helps prevent fluid leakage from the catheter hub, or a needle shield that covers the distal end of a needle used during catheter insertion. | 12-08-2011 |
20120016312 | CATHETER STABILIZATION DEVICE - A catheter stabilization device for stabilizing an inserted catheter penetrating a surface at a catheter insertion site, including: a base that is coupleable to the surface and includes a channel defining a longitudinal opening that receives a portion of the catheter, and a frame that forms at least a partial perimeter around the catheter insertion site with a plurality of anchoring points; and a catheter fitting, coupled to the base, that secures the catheter in the channel. The base couples to the surface at the plurality of anchoring points distributed around the catheter insertion site, thereby stabilizing the catheter. The method of using the device includes positioning the base over the catheter, receiving a portion of the catheter in the channel through the longitudinal opening, securing the catheter within the channel, and coupling the base to the surface at the plurality of anchoring points distributed around the insertion site. | 01-19-2012 |
20130158506 | CATHETER AND NEEDLE SYSTEM AND METHOD OF INSERTING A CATHETER - A system and method for inserting a catheter into a patient, the system comprising a frame including a catheter hub configured to provide a first anchoring point on a patient and receive a catheter insertable in the patient at an insertion site, a stabilization hub configured to provide a second anchoring point on the patient, and a flexible tubular lateral member, extending between the catheter hub and the stabilization hub; a fluidic channel configured to fluidically communicate with the catheter and transfer fluid to the catheter; a flush fluid source configured to couple to the fluidic channel and supply flush fluid to the catheter; a housing comprising a needle mount and a flash chamber; and needle having a distal end insertable through the frame and the catheter and a proximal end coupled to the needle mount, wherein the needle is configured to provide a fluid path to the flash chamber. | 06-20-2013 |
Patent application number | Description | Published |
20140296829 | INTEGRATED VASCULAR DELIVERY SYSTEM - An integrated vascular delivery system and method of use, the system including: a frame having a catheter hub that provides a first anchoring point on the patient and receives a catheter insertable in the patient to transfer fluid at an insertion site, a stabilization hub that provides a second anchoring point on the patient, at least one lateral member extending between the catheter and stabilization hubs, and a fluidic channel. The frame operates in a folded configuration in which the hubs are coupleable and an unfolded configuration in which the anchoring points are distributed around the insertion site to anchor the frame to the patient, thereby stabilizing the catheter. In some embodiments, the system further includes a septum that helps prevent fluid leakage from the catheter hub, or a needle shield that covers the distal end of a needle used during catheter insertion. | 10-02-2014 |
20140371715 | SAFETY NEEDLE SYSTEM OPERABLE WITH A MEDICAL DEVICE - A safety needle system operable with a medical device includes: a housing with a needle mount having a needle; and a sheath telescopically engaged with the housing and surrounding the needle such that the sheath operates in a retracted position, in which the sheath exposes the needle, and an extended position, in which the sheath surrounds the needle. The sheath is coupleable to the medical device such that removal of the needle from the medical device draws the sheath over the needle, transitioning the sheath from the retracted position to the extended position. In one embodiment, the system includes a slider engaged with the sheath and/or housing and including a restraint that engages and disengages the sheath to respectively reinforce and weaken the coupling of the sheath and medical device. In another embodiment, the sheath includes a longitudinal track that slidingly engages a setting of the housing between sheath positions. | 12-18-2014 |
20150224267 | SAFETY NEEDLE SYSTEM OPERABLE WITH A MEDICAL DEVICE - A safety needle system operable with a medical device includes: a housing with a needle mount having a needle; and a sheath telescopically engaged with the housing and surrounding the needle such that the sheath operates in a retracted position, in which the sheath exposes the needle, and an extended position, in which the sheath surrounds the needle. The sheath is coupleable to the medical device such that removal of the needle from the medical device draws the sheath over the needle, transitioning the sheath from the retracted position to the extended position. In one embodiment, the system includes a slider engaged with the sheath and/or housing and including a restraint that engages and disengages the sheath to respectively reinforce and weaken the coupling of the sheath and medical device. In another embodiment, the sheath includes a longitudinal track that slidingly engages a setting of the housing between sheath positions. | 08-13-2015 |
Patent application number | Description | Published |
20090321386 | Lightweight container having mid-body grip - The present disclosure provides a one-piece plastic container having a body defining a generally rectangular horizontal cross-section, and including a first pair of opposing sidewalls and a second pair of opposing sidewalls. The body has an upper portion, a shoulder region, a sidewall portion and a base. The shoulder region is integrally formed with and extends from the upper portion to the sidewall portion. The base closes off an end of the container. The shoulder region defines a pair of grip portions defined in part by a respective pair of pillars. Each pillar defines oppositely facing walls that are offset inboard relative to the respective second pair of opposing sidewalls. | 12-31-2009 |
20110168662 | HEAT SET CONTAINER - A heat set container comprising a base portion, a shoulder portion, and a sidewall portion extending from the shoulder portion to the base portion. The shoulder portion, the sidewall portion and the base portion cooperate to define a receptacle chamber within the container into which product can be filled. A plurality of vacuum panels are equidistantly disposed about the sidewall portion. A plurality of transition lands are disposed between adjacent ones of the plurality of vacuum panels and spaced outwardly relative thereto. The plurality of vacuum panels and the plurality of transition lands cooperate to be inwardly collapsible from a first outside diameter to a second outside diameter in response to at least internal vacuum forces. | 07-14-2011 |
20130193101 | HEAT SET CONTAINER - A heat set container including a base portion, a shoulder portion, and a sidewall portion extending from the shoulder portion to the base portion. The shoulder portion, the sidewall portion and the base portion cooperate to define a receptacle chamber within the container into which product can be filled. A plurality of vacuum panels are equidistantly disposed about the shoulder portion. A plurality of transition lands are disposed between adjacent ones of the plurality of vacuum panels and spaced outwardly relative thereto. The plurality of vacuum panels cooperate to be inwardly collapsible from a first outside diameter to a second outside diameter in response to at least internal vacuum forces. | 08-01-2013 |
Patent application number | Description | Published |
20090059218 | STABLE TURBIDITY CALIBRATION STANDARDS - The present invention relates to a turbidity calibration standard comprising: a number of from 1 to 5 sequentially-interfaced layers, wherein each layer independently comprises a light-permeable polymer or light-permeable interpolymer; a measured light transmission modulating amount of at least one light transmission modulator, which is distributed in any one or more of the layers; and a light-permeable container, which contains the layers and the at least one light transmission modulator. Also, the invention relates to methods of making and using the standard, and kits comprising the standard. | 03-05-2009 |
20100069257 | POROUS SAMPLE TESTING DEVICE AND METHODS - Described are devices and methods for parallel testing of formulations on various substrates. | 03-18-2010 |
20100083778 | DEVICES FOR RETAINING A NONPOROUS SUBSTRATE AND METHODS - Described are devices for retaining a nonporous substrate, as well as methods for their use, the devices comprising a housing for receiving the nonporous substrate, a removable well insert attached to the housing and adjacently coplanar to the substrate, the well insert having at least one opening that, together with the substrate, defines a well, and means for exerting a force against the substrate such that the substrate engages the well insert with sufficient force to attain a fluid-tight seal in the well. | 04-08-2010 |
20100118130 | DIGITAL IMAGING SYSTEM - The invention is an image capturing device comprising a lens to capture the image of the one or more samples which are located in an image capturing chamber, a nest receptacle to hold the one or more samples during imaging, and at least one illuminating source to illuminate the one or more samples. The chamber, lighting and nest receptacle are configured to minimize undesired reflections and improve the image quality. | 05-13-2010 |
20100125041 | METHODS OF TESTING A PLURALITY OF TEST SAMPLES AND SYSTEMS THEREFOR - The invention is a method and system for testing the physicochemical properties of plurality of test samples in parallel. The method includes providing a test assembly having the plurality of test samples, wherein the plurality of test samples is provided over a plurality of cells in the test assembly. A test fluid, a test object, or both are provided over the plurality of test samples to determine a physicochemical property of the plurality of test samples. The physicochemical property of the plurality of test samples is determined from the displacement of the plurality of test samples. | 05-20-2010 |
20100139374 | METHODS FOR RHEOLOGICAL TESTING OF MULTIPLE SAMPLES AND SYSTEMS THEREFOR - The viscosity or relative viscosity of samples can be measured in parallel by dispensing or aspirating the samples at a set condition and then measuring a property of the sample such as mass dispensed or aspirated. | 06-10-2010 |
20100267840 | STABILIZERS FOR HYDROPHOBIC COMPONENTS IN PERSONAL CARE COMPOSITIONS - The present invention provides personal care compositions, as well as methods for stabilizing a degradable of reactive hydrophobic, cosmetically acceptable, component in an aqueous composition. | 10-21-2010 |
20110160350 | REDISPERSIBLE POLYMER POWDERS STABILIZED WITH PROTECTIVE COLLOID COMPOSITIONS - A water redispersible polymer powder is produced by drying an aqueous mixture of a water insoluble film-forming polymer and a colloidal stabilizer which includes a chelating agent and at least one water soluble polymer. The amount of chelating agent is at least 0.1% by weight, based upon the weight of the water insoluble film-forming polymer, and the amount of the at least one water soluble polymer is at least 0.1% by weight, based upon the weight of the water insoluble film-forming polymer. Dispersions or polymer compositions containing a chelating agent and water soluble polymer as a colloidal stabilizer exhibit an unexpectedly low viscosity which facilitates spray drying and permits use of high solids content dispersions with low pressure spray drying to increase production efficiency. The colloidal stabilizer composition provides unexpectedly superior redispersibility for water insoluble film-forming polymers having very low carboxylation levels. | 06-30-2011 |
20120225555 | Stable, concentratable chemical mechanical polishing composition and methods relating thereto - A chemical mechanical polishing composition useful for chemical mechanical polishing a semiconductor wafer containing an interconnect metal is provided, comprising, as initial components: water; an azole inhibitor; an alkali metal organic surfactant; a hydrotrope; a phosphorus containing agent; a water soluble cellulose; optionally, a non-saccharide water soluble polymer; optionally, a water soluble acid compound of formula I, wherein R is selected from a hydrogen and a C | 09-06-2012 |
20120225556 | Stable, concentratable, water soluble cellulose free chemical mechanical polishing composition - A chemical mechanical polishing composition useful for chemical mechanical polishing a semiconductor wafer containing an interconnect metal is provided, comprising, as initial components: water; an azole inhibitor; an alkali metal organic surfactant; a hydrotrope; a phosphorus containing agent; optionally, a non-saccharide water soluble polymer; optionally, a water soluble acid compound of formula I, wherein R is selected from a hydrogen and a C | 09-06-2012 |
20130274169 | ETHYLENE ACRYLIC ACID COPOLYMER AQUEOUS DISPERSIONS FOR FRAGRANCE RELEASE IN LAUNDRY DETERGENTS - Described are fabric care compositions, comprising a builder and an aqueous dispersion comprising an ethylene acrylic acid copolymer and a fragrance. | 10-17-2013 |
Patent application number | Description | Published |
20120034127 | LOW SULFUR NICKEL-BASE SINGLE CRYSTAL SUPERALLOY WITH PPM ADDITIONS OF LANTHANUM AND YTTRIUM - A single crystal casting having substantially improved high-temperature oxidation resistance, hot corrosion (sulfidation) resistance, and resistance to creep under high temperature and high stress is characterized by an as-cast composition comprising a maximum sulfur content of 0.5 ppm by weight, a maximum phosphorus content of 20 ppm by weight, a maximum nitrogen content of 3 ppm by weight, a maximum oxygen content of 3 ppm by weight, and a combined yttrium and lanthanum content of 5-80 pm by weight. It has been discovered that careful control of the deleterious impurities, particularly sulfur, phosphorus, nitrogen and oxygen, in combination with a carefully controlled addition of yttrium and/or lanthanum provides unexpected improvements in corrosion and oxidation resistance, while also enhancing high-temperature, high-stress resistance to creep, without any detrimental effects on other mechanical properties, processing or producability, particularly castability. | 02-09-2012 |
20130129522 | RHENIUM-FREE SINGLE CRYSTAL SUPERALLOY FOR TURBINE BLADES AND VANE APPLICATIONS - A rhenium-free nickel-base superalloy for single crystal casting that exhibits excellent high temperature creep resistance, while also exhibiting other desirable properties for such alloys, comprises 5.60% to 5.85% aluminum, 9.4% to 9.9% cobalt, 5.0% to 6.0% chromium, 0.08% 0.35% hafnium, 0.50% to 0.70% molybdenum, 8.0% to 9.0% tantalum, 0.60% to 0.90% titanium, 8.5% to 9.8% tungsten, the balance comprising nickel and minor amounts of incidental elements. | 05-23-2013 |
20130142637 | LOW RHENIUM SINGLE CRYSTAL SUPERALLOY FOR TURBINE BLADES AND VANE APPLICATIONS - A low rhenium nickel-base superalloy for single crystal casting that exhibits excellent high temperature creep resistance, while also exhibiting other desirable properties for such alloys, comprises 5.60% to 5.80% aluminum by weight, 9.4% to 9.9% cobalt by weight, 4.9% to 5.5% chromium by weight, 0.08% to 0.35% hafnium by weight, 0.50% to 0.70% molybdenum by weight, 1.4% to 1.6% rhenium by weight, 8.1% to 8.5% tantalum by weight, 0.60% to 0.80 titanium by weight, 7.6 to 8.0% tungsten by weight the balance comprising nickel and minor amounts of incidental impurity elements. | 06-06-2013 |
20150322550 | HIGH STRENGTH SINGLE CRYSTAL SUPERALLOY - A nickel-base superalloy for single crystal casting of components exhibiting excellent creep and rupture properties at high temperature and stresses, and which exhibits excellent phase stability contains 5.60% to 5.80% by weight of aluminum; 9.4% to 9.8% by weight of cobalt; 3.2% to 3.9% by weight of chromium; 7.8% to 8.5% by weight of tantalum; 5.3% to 5.7% by weight of tungsten; 0.50% to 0.70% by weight of molybdenum; 4.3% to 4.9% by weight of rhenium; 0.75% to 0.90% by weight of titanium; 0.08% to 0.15% by weight of hafnium; less than 1.1% by weight of tramp elements other than aluminum, cobalt, chromium, tantalum, tungsten, molybdenum, rhenium, titanium and nickel; and balance nickel. | 11-12-2015 |
Patent application number | Description | Published |
20130210692 | CLEANING COMPOSITION AND METHOD OF FORMING THE SAME - A cleaning composition comprises a chelating component. The chelating component is generally selected from the group of methylglycine-N—N-diacetic acid (MGDA), N,N-bis(carboxymethyl)-L-glutamate (GLDA), nitrilotriacetic acid (NTA), hydroxyethylethylenediaminetriacetic acid (HEDTA), ethylenediaminetetraacetic acid (EDTA), diethylenetriaminepentaacetic acid (DTPA), and mixtures thereof. The cleaning composition further comprises a builder component comprising a metal silicate and/or a metal carbonate. The cleaning composition further comprises a solvent component comprising an alkanolamine. The cleaning composition further comprises a polymer component comprising a polyacrylic acid (PAA) and/or an acrylic-maleic copolymer. Optionally, the cleaning composition can further comprise a surfactant component. The cleaning composition is useful for removing tough soil from a ware surface in a dishwasher, such as for removing proteinaceous, carbohydrate, and/or fatty materials from cookware, bakeware, tableware, dishware, flatware, and/or glassware in an automatic dishwasher. A method of forming the cleaning composition is also provided. | 08-15-2013 |
20130274167 | CLEANING COMPOSITION FOR DISHWASHING - A cleaning composition comprises the reaction product of A) a chelating component and B) an acidic component different from the chelating component. The chelating component is selected from the group of methylglycine-N-N-diacetic acid (MGDA), N,N-bis(carboxymethyl)-L-glutamate (GLDA), nitrilotriacetic acid (NTA), hydroxyethylethylenediaminetriacetic acid (HEDTA), ethylenediaminetetraacetic acid (EDTA), diethylenetriaminepentaacetic acid (DTPA), and mixtures thereof. The chelating component is generally a salt or a partial-salt of the respective acid, e.g. Na | 10-17-2013 |
Patent application number | Description | Published |
20080249250 | Copolymers Containing Lateral Carbamate Groups And Groups Which Can Be Activated With Actinic Radiation, Processes For Preparing Them, And Their Use - Copolymers (A) containing lateral, primary and/or secondary carbamate groups (a12) and groups (a31) which can be activated with actinic radiation, preparable by | 10-09-2008 |
20090326099 | PROCESS FOR CONTINUOUS PRODUCTION OF EPOXY RESINS - An epoxy resin with amine functionality is manufactured continuously through a first reaction zone in which an epoxide-functional resin is made by ring-opening addition, a second reaction zone in which the resin is reacted with amine to make an epoxide-functional product, and a third reaction zone in which the epoxide functional product is reacted with amine to make the epoxy resin with amine functionality. In other embodiments, some amine may be added in the first reaction zone to produce an epoxide functional product, with elimination of the second reaction zone, or all of the amine reactant may be added in the first reaction zone to produce an amine functional product, with elimination of both the second and third reaction zones. Optionally, solvent may be removed in an evaporation zone and recycled into the continuous process and further zones may be included to incorporate crosslinker, additives, and to emulsify the resin. | 12-31-2009 |
20090326173 | PROCESS FOR CONTINUOUS PRODUCTION OF EPOXY RESINS - An epoxy resin with amine functionality is manufactured continuously through a first reaction zone in which an epoxide-functional resin is made by ring-opening addition, a second reaction zone in which the resin is reacted with amine to make an epoxide-functional product, and a third reaction zone in which the epoxide functional product is reacted with amine to make the epoxy resin with amine functionality. In other embodiments, some amine may be added in the first reaction zone to produce an epoxide functional product, with elimination of the second reaction zone, or all of the amine reactant may be added in the first reaction zone to produce an amine functional product, with elimination of both the second and third reaction zones. Optionally, solvent may be removed in an evaporation zone and recycled into the continuous process and further zones may be included to incorporate crosslinker, additives, and to emulsify the resin. | 12-31-2009 |
20090326189 | PROCESS FOR CONTINUOUS PRODUCTION OF EPOXY RESINS - An epoxy resin with amine functionality is manufactured continuously through a first reaction zone in which an epoxide-functional resin is made by ring-opening addition, a second reaction zone in which the resin is reacted with amine to make an epoxide-functional product, and a third reaction zone in which the epoxide functional product is reacted with amine to make the epoxy resin with amine functionality. In other embodiments, some amine may be added in the first reaction zone to produce an epoxide functional product, with elimination of the second reaction zone, or all of the amine reactant may be added in the first reaction zone to produce an amine functional product, with elimination of both the second and third reaction zones. Optionally, solvent may be removed in an evaporation zone and recycled into the continuous process and further zones may be included to incorporate crosslinker, additives, and to emulsify the resin. | 12-31-2009 |
20100183882 | Coating System For Achieving Excellent MVSS Adhesion - A coating system includes a clear coat layer and a sealant. The clear coat layer is formed from a clear coat composition that comprises a crosslinkable carbamate-functional resin and an aminoplast. Optionally, the coating system further includes a sub-clear coat layer that is formed from a sub-clear coat composition. The sealant is bonded to the clear coat layer opposite the sub-clear coat layer. Optionally, the coating system further includes a tie coat layer that is formed from a tie coat composition and that is disposed between the sealant and the clear coat layer. An adhesion promoter is present in the clear coat composition in an amount of less than or equal to about 3% by weight based on the total weight of resin solids of the clear coat composition. Further, the adhesion promoter is present in at least one of the sub-clear coat composition and the tie coat composition in an amount sufficient to increase adhesion between the clear coat layer and the sealant. | 07-22-2010 |
Patent application number | Description | Published |
20100068605 | REJUVENATION AND REUSE OF DEGRADED LITHIUM ION BATTERY CELLS - One embodiment includes a method for rejuvenating failed or degraded pouch-type lithium-ions batteries. | 03-18-2010 |
20100124691 | METHOD AND APPARATUS FOR REJUVENATION OF DEGRADED POUCH-TYPE LITHIUM ION BATTERY CELLS - One embodiment includes a method including use of a manifold connected to one or more pouches for rejuvenating failed or degraded pouch-type lithium-ions batteries. | 05-20-2010 |
20110151333 | LITHIUM ION BATTERY - In a lithium ion battery, one or more chelating agents may be attached to a microporous polymer separator for placement between a negative electrode and a positive electrode or to a polymer binder material used to construct the negative electrode, the positive electrode, or both. The chelating agents may comprise, for example, at least one of a crown ether, a podand, a lariat ether, a calixarene, a calixcrown, or mixtures thereof. The chelating agents can help improve the useful life of the lithium ion battery by complexing with unwanted metal cations that may become present in the battery's electrolyte solution while, at the same time, not significantly interfering with the movement of lithium ions between the negative and positive electrodes. | 06-23-2011 |
20110165459 | LITHIUM ION BATTERY - In a lithium ion battery, one or more chelating agents may be attached to a microporous polymer separator for placement between a negative electrode and a positive electrode or to a polymer binder material used to construct the negative electrode, the positive electrode, or both. The chelating agents may comprise, for example, at least one of a crown ether, a podand, a lariat ether, a calixarene, a calixcrown, or mixtures thereof. The chelating agents can help improve the useful life of the lithium ion battery by complexing with unwanted metal cations that may become present in the battery's electrolyte solution while, at the same time, not significantly interfering with the movement of lithium ions between the negative and positive electrodes. | 07-07-2011 |
20120244390 | SELF HEALING LITHIUM-ION BATTERY NEGATIVE ELECTRODES, PRODUCT INCLUDING SAME, AND METHODS OF MAKING AND USING SAME - One embodiment includes a lithium-ion battery negative electrode including one or more low-melting point alloys that react with lithium. | 09-27-2012 |
20120244418 | LIQUID-METAL NEGATIVE ELECTRODE FOR LITHIUM-ION BATTERIES - One embodiment includes a liquid-metal alloy negative electrode for a lithium-ion battery. | 09-27-2012 |
20120301790 | LITHIUM ION SECONDARY BATTERY ELECTRODE AND METHOD OF FORMING SAME - A method of forming an electrode of a lithium ion secondary battery includes combining a binder and active particles to form a mixture, coating a surface with the mixture to form a coated article, translating the article along a first plane, cutting a first plurality of carbon fibers, each having a first average length, to form a second plurality of carbon fibers, each having a longitudinal axis and a second average length that is shorter than the first average length, inserting the second plurality of fibers into the mixture layer so that the longitudinal axis of each of at least a portion of the second plurality of fibers is not parallel to the first plane to form a preform, wherein the second plurality of fibers forms a truss structure disposed in three dimensions within the mixture layer, and heating the preform to form the electrode. An electrode is also disclosed. | 11-29-2012 |
20140272514 | BATTERY MODULE FOR MITIGATING GAS ACCUMULATION AND METHODS THEREOF - A battery module is provided. The battery module includes a plurality of battery cell assemblies configured to electrically communicate with each other. Each battery cell assembly has an electrode stack enclosed by a case. The electrode stack is positioned in the case to form one or more peripheral spaces between the electrode stack and the case. Support members are positioned adjacent to each of the battery cell assemblies to contact a desired portion of the electrode stack. The support members are configured to focus a compressive force on a desired portion of the electrode stack. The compressive force urges gases formed during operation of the electrode stack into the peripheral spaces within the case. | 09-18-2014 |
20140329143 | LITHIUM ION BATTERY - In a lithium ion battery, one or more chelating agents may be attached to a microporous polymer separator for placement between a negative electrode and a positive electrode or to a polymer binder material used to construct the negative electrode, the positive electrode, or both. The chelating agents may comprise, for example, at least one of a crown ether, a crown ether, a podand, a lariat ether, a calixarene, a calixcrown, or mixtures thereof. The chelating agents can help improve the useful life of the lithium ion battery by complexing with unwanted metal cations that may become present in the battery's electrolyte solution while, at the same time, not significantly interfering with the movement of lithium ions between the negative and positive electrodes. | 11-06-2014 |
Patent application number | Description | Published |
20080289949 | Method for processing effluent from chloromethylation of vinyl aromatic polymers - A method for processing effluent from a chloromethylation of a vinyl aromatic polymer wherein the effluent comprises catalyst and volatile organics, and wherein the method comprising the steps of:
| 11-27-2008 |
20100210743 | AMINATION OF VINYL AROMATIC POLYMERS WITH TERTIARY AMINES - The invention generally relates to amination reactions and amination reaction products, and particularly to methods for aminating vinyl aromatic polymers utilizing tertiary amines. In one embodiment, the invention includes conducting an amination reaction by combining a tertiary amine and a vinyl aromatic polymer comprising benzyl chloride groups to form a reaction mixture and maintaining the pH of the reaction mixture within a designated range. In another embodiment, the invention includes an aminated vinyl aromatic polymer. In yet another embodiment, the invention includes an ion exchange resin including quaternary ammonium functionality. The invention is useful in preparing ion exchange resins suitable for a variety of applications such as the removal of perchlorate ions from water sources and recovery of gold cyanide from mining leach solutions. | 08-19-2010 |
20120283453 | PRODUCTION OF EPOXY RESINS USING IMPROVED ION EXCHANGE RESIN CATALYSTS - Use a modified, amine-functionalized anion exchange resin as a catalyst to produce a bishalohydrin ether and then dehydrohalogenate the bishalohydrin ether with an aqueous inorganic hydroxide mixture to yield a liquid epoxy resin. | 11-08-2012 |
20130053458 | Shell Functionalized ion Exchange Resins - The present invention relates to a method for the production of improved shell functionalized ion exchange resins from core/shell copolymer having a highly crosslinked core. | 02-28-2013 |
20130053460 | Shell Functionalized Ion Exchange Resins - The present invention relates to a method for the production of improved shell functionalized ion exchange resins from core/shell copolymer having a highly crosslinked core. | 02-28-2013 |