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4505 results about "Rough surface" patented technology
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Surface roughness often shortened to roughness, is a component of surface texture. It is quantified by the deviations in the direction of the normal vector of a real surface from its ideal form. If these deviations are large, the surface is rough; if they are small, the surface is smooth.
Biocompatible implant and use of the same
InactiveUS20060252981A1Good biological affinityStrong enoughImpression capsEye implantsRough surfaceBiological body
The present invention provides an implant capable of being cellularized in treatment of an injured organ or tissue in organisms. The present inventors found that a biocompatible implant comprising a biological molecule and a support is capable of being cellularized. The implant can be used instead of conventional implants which essentially comprise cells. The present invention provides a biocompatible implant comprising A) a biological molecule and B) a support. The present invention also provides A) a first layer having a rough surface, B) a rough surface; B) a second layer having a strength which allows the support to resist in vivo shock. The first layer is attached to the second layer via at least one point.
Owner:CARDIO
Light-emitting device and method for manufacturing the same
InactiveUS20050112886A1Small sizeGood effectLayered productsSemiconductor/solid-state device manufacturingRough surfaceMean diameter
A nanometer size roughened structure is formed on a surface of a light-emitting element, and luminous efficiency is improved. The roughened structure on the surface of the light-emitting element of the invention is formed into the following shape such that the refractive index smoothly changes: (1) the mean diameter of projections on the roughened surface is smaller than the light wavelength; (2) a pitch of the roughened surface is irregular; and (3) positions of the top and bottom of the roughened surface are distributed from their mean values within the light wavelength in order to give a smooth gradient of the refractive index. The surface of such light-emitting element is obtained by forming a thin film on the surface of the light-emitting element using a resin composition which contains a block copolymer or graft copolymer and forms a micophase-separated structure in a self-organization manner; selectively removing at least one phase of the microphase-separated structure of the thin film formed on the surface; and etching the surface of the light-emitting element using the remaining phase as an etching mask.
Owner:AGILENT TECH INC
Method of preventing surface roughening during hydrogen pre-bake of SiGe substrates using chlorine containing gases
InactiveUS20050148162A1Prevent surfaceAvoid creatingPolycrystalline material growthSemiconductor/solid-state device manufacturingPartial oxidationSilicon on insulator
The invention forms an epitaxial silicon-containing layer on a silicon germanium, patterned strained silicon, or patterned thin silicon-on-insulator surface and avoids creating a rough surface upon which the epitaxial silicon-containing layer is grown. In order to avoid creating the rough surface, the invention first performs a hydrofluoric acid etching process on the silicon germanium, patterned strained silicon, or patterned thin silicon-on-insulator surface. This etching process removes most of oxide from the surface, and leaves only a sub-monolayer of oxygen (typically 1×1013-1×1015 / cm2 of oxygen) at the silicon germanium, patterned strained silicon, or patterned thin silicon-on-insulator surface. The invention then performs a hydrogen pre-bake process in a chlorine containing environment which heats the silicon germanium, strained silicon, or thin silicon-on-insulator surface sufficiently to remove the remaining oxygen from the surface. By introducing a small amount of chlorine containing gases, the heating processes avoid changing the roughness of the silicon germanium, patterned strained silicon, or patterned thin silicon-on-insulator surface. Then the process of epitaxially growing the epitaxial silicon-containing layer on the silicon germanium, patterned strained silicon, or patterned silicon-on-insulator surface is performed.
Owner:IBM CORP
Method of preventing surface roughening during hydrogen prebake of SiGe substrates
InactiveUS6958286B2Polycrystalline material growthSemiconductor/solid-state device manufacturingRough surfaceHydrofluoric acid
Owner:INT BUSINESS MASCH CORP
High efficiency nitride based light emitting device
A nitride light emitting device includes a substrate, a first nitride semiconductor stack formed above the substrate, the first nitride semiconductor stack having an epitaxial surface and a first rough surface, a distance from the epitaxial surface to the substrate being not less than a distance from the rough surface to the substrate, a nitride emitting layer formed on the epitaxial surface, and a second nitride semiconductor stack formed on the nitride emitting layer for promoting the efficiency of capturing light emitted from an LED.
Owner:EPISTAR CORP
Application of force in electrochemical cells
ActiveUS20100035128A1Improve performancePrimary cell to battery groupingCell seperators/membranes/diaphragms/spacersRough surfaceChemical reaction
The present invention relates to the application of a force to enhance the performance of an electrochemical cell. The force may comprise, in some instances, an anisotropic force with a component normal to an active surface of the anode of the electrochemical cell. In the embodiments described herein, electrochemical cells (e.g., rechargeable batteries) may undergo a charge / discharge cycle involving deposition of metal (e.g., lithium metal) on a surface of the anode upon charging and reaction of the metal on the anode surface, wherein the metal diffuses from the anode surface, upon discharging. The uniformity with which the metal is deposited on the anode may affect cell performance. For example, when lithium metal is redeposited on an anode, it may, in some cases, deposit unevenly forming a rough surface. The roughened surface may increase the amount of lithium metal available for undesired chemical reactions which may result in decreased cycling lifetime and / or poor cell performance. The application of force to the electrochemical cell has been found, in accordance with the invention, to reduce such behavior and to improve the cycling lifetime and / or performance of the cell.
Owner:SION POWER CORP
Speckle-image-based optical position transducer having improved mounting and directional sensitivities
InactiveUS6642506B1Reduce sensitivityAvoid smearingSlide gaugesMaterial analysis by optical meansImage detectionRelative motion
A speckle readhead includes a light source that outputs light towards an optically rough surface. Light scattered from this surface contains speckles. The scattered light is imaged onto an image detector, captured and stored. Subsequently, a second image is captured and stored. The two images are repeatedly compared at different offsets in a displacement direction. The comparison having the highest value indicates the amount of displacement between the readhead and the surface that occurred between taking the two images. An optical system of the readhead includes a lens and an aperture. The aperture can be round, with a diameter chosen so that the average size of the speckles is approximately equal to, or larger than, the dimensions of the elements of the image detector. The dimension of the aperture in a direction perpendicular to the direction of displacement can be reduced. Thus, the imaged speckles in that direction will be greater than the dimension of the image detector elements in that direction. Such a readhead is relatively insensitive to lateral offsets. The lens can be a cylindrical lens that magnifies the relative motion along the direction of displacement but does not magnify relative motions in the direction perpendicular to the direction of displacement. The optical system can also be telecentric. Thus, the readhead is relatively insensitive to both separation and relative motions between the readhead and the surface. The light source can be modulated to prevent smearing the speckles across the image detector. The light source can be strobed to freeze the image.
Owner:MITUTOYO CORP
Ophthalmic lens synthesized from its specification
InactiveUS6464355B1Less aberrationImprove optical qualityEye diagnosticsOptical partsRough surfaceMicroscopic scale
This invention relates to a novel prescription lens (58), mainly suited for ophthalmic applications. The lens designer defines the macroscopic surfaces of the lens (59, 60) as desired. The design process assumes that the location of the object (50), the lens (51), and the required image (53) are known. By using Ray-tracing technique we calculate the microscopic normals to the lens that will form the required image. From those microscopic normals we calculate microscopic surface by a process of summation the slopes with geometric pattern conditions. The final surface is not smooth but contains plenty of dense microscopic shapes that look like saw-teeth. That rough surface enables the lens to have almost any desired shape and thickness.
Owner:GIL THIEBERGER
Nanostructured materials, methods, and applications
ActiveUS20120328905A1Simple materialAltered material and material propertyMaterial nanotechnologyRecord information storageRough surfaceNanostructured materials
Methods for making a material superwicking and / or superwetting (superhydrophyllic) involving creating one or more indentations in the surface of the material that have a micro-rough surface of protrusions, cavities, spheres, rods, or other irregularly shaped features having heights and / or widths on the order of 0.5 to 100 microns and the micro-rough surface having a nano-rough surface of protrusions, cavities, spheres, rods, and other irregularly shaped features having heights and / or widths on the order of 1 to 500 nanometers. Superwicking and / or superwetting materials having micro-rough and nano-rough surface indentations, including metals, glass, enamel, polymers, semiconductors, and others.
Owner:UNIVERSITY OF ROCHESTER
Resonant cavity III-nitride light emitting devices fabricated by growth substrate removal
A semiconductor light emitting device includes an n-type region, a p-type region, and light emitting region disposed between the n- and p-type regions. The n-type, p-type, and light emitting regions form a cavity having a top surface and a bottom surface. Both the top surface and the bottom surface of the cavity may have a rough surface. For example, the surface may have a plurality of peaks separated by a plurality of valleys. In some embodiments, the thickness of the cavity is kept constant by incorporating an etch-stop layer into the device, then thinning the layers of the device by a process that terminates on the etch-stop layer.
Owner:LUMILEDS
Glass ceramic and metal substrates with a self-cleaning surface, method for the production and use thereof
InactiveUS6872441B2Improve self-cleaningExcellent abrasion resistanceFouling preventionPretreated surfacesRough surfaceGlass-ceramic
The invention relates to glass, ceramic and metal substrates with at least one self-cleaning surface, comprising a layer with a micro-rough surface structure which is arranged on the substrate and made at least partly hydrophobic. The layer contains a glass flux and structure-forming particles with a mean particle diameter within the 0.1 to 50 μm range; the glass flux and structure-forming particles are present in a volume ratio within the 0.1 to 5 range, and the micro-rough surface structure has a ratio of mean profile height to mean distance between adjacent profile tips within the 0.3 to 10 range.To produce the subject of the invention the substrate is coated with a composition containing a glass flux and structure-forming particles, and the layer is burnt in and made hydrophobic.
Owner:FERRO GMBH
Method of preventing surface roughening during hydrogen prebake of SiGe substrates
InactiveUS20050148161A1Avoid creatingAvoid roughnessPolycrystalline material growthSemiconductor/solid-state device manufacturingHydrofluoric acidRough surface
The invention forms an epitaxial silicon-containing layer on a silicon germanium, patterned strained silicon, or patterned thin silicon-on-insulator surface and avoids creating a rough surface upon which the epitaxial silicon-containing layer is grown. In order to avoid creating the rough surface, the invention first performs a hydrofluoric acid etching process on the silicon germanium, patterned strained silicon, or patterned thin silicon-on-insulator surface. This etching process removes most of oxide from the surface, and leaves a first amount of oxygen (typically 1×1013-1×1015 / cm2 of oxygen) on the silicon germanium, patterned strained silicon, or patterned thin silicon-on-insulator surface. The invention then performs a hydrogen pre-bake process which heats the silicon germanium, patterned strained silicon, or patterned thin silicon-on-insulator surface sufficiently to remove additional oxygen from the surface and leave a second amount of oxygen, less than the first amount, on the silicon germanium, patterned strained silicon, or patterned thin silicon-on-insulator surface. The heating process leaves an amount of at least 5×1012 / cm2 of oxygen (typically, between approximately 1×1013 / cm2 and approximately 5×1013 / cm2 of oxygen) on the silicon germanium, patterned strained silicon, or patterned thin silicon-on-insulator surface. By leaving a small amount of oxygen on the silicon germanium, patterned strained silicon, or patterned silicon-on-insulator surface, the heating processes avoid changing the roughness of the silicon germanium, patterned strained silicon, or patterned thin silicon-on-insulator surface. Then the process of epitaxially growing the epitaxial silicon-containing layer on the silicon germanium, patterned strained silicon, or patterned silicon-on-insulator surface is performed.
Owner:IBM CORP
Processes for producing regular repeating patterns on surfaces of interbody devices
ActiveUS20120312778A1Sufficient bioactivityHigh positioning accuracyDecorative surface effectsVacuum evaporation coatingRough surfaceMedicine
Processes for producing interbody spinal implants having a body with a top surface, a bottom surface, opposing lateral sides, opposing anterior and posterior portions, a substantially hollow center, and a single vertical aperture; and optionally, one or two integration plates affixed to the body. The processes include applying an additive process, a subtractive process, or both processes to at least one surface of the interbody spinal implant to form a roughened surface topography having a regular repeating pattern. The roughened surface topography is specifically designed to provide certain frictional characteristics, load dispersion, and to influence the biological responses that occur during bone healing and fusion.
Owner:TITAN SPINE
Production method of concave convex stick ceramic grain filter
InactiveCN100423808CGood film-hanging performanceImprove stabilityFiltration separationClaywaresRough surfaceWater quality
Owner:许盛英
Nitride-based semiconductor light-emitting device and method of manufacturing the same
ActiveUS20070202624A1Simple structureImprove extraction efficiencyBuilding locksSemiconductor/solid-state device manufacturingRough surfaceEngineering
A nitride-based semiconductor light-emitting device having an improved structure to enhance light extraction efficiency, and a method of manufacturing the same are provided. The method includes the operations of sequentially forming an n-clad layer, an active layer, and a p-clad layer on a substrate; forming a plurality of masking dots on an upper surface of the p-clad layer; forming a p-contact layer having a rough surface on portions of the p-clad layer between the masking dots; forming a rough n-contact surface of the n-clad layer having the same rough shape as the rough shape of the p-contact layer by dry-etching from a portion of the upper surface of the p-contact layer to a desired depth of the n-clad layer; forming an n-electrode on the rough n-contact surface; and forming a p-electrode on the p-contact layer.
Owner:SAMSUNG ELECTRONICS CO LTD
Circuit member, manufacturing method for circuit members, semiconductor device, and surface lamination structure for circuit member
ActiveUS20090039486A1High bonding strengthPrinted circuit assemblingLine/current collector detailsRough surfaceElectrical connection
A circuit member includes a frame substrate formed, by patterning a rolled copper plate or a rolled copper alloy plate, with a die pad portion for a semiconductor chip to be mounted thereon, and a lead portion for an electrical connection to the semiconductor chip, having rough surfaces formed as roughed surfaces on upsides and lateral wall sides of the die pad portion and the lead portion, and smooth surfaces formed on downsides of the die pad portion and the lead portion, and the die pad portion and the lead portion are buried in a sealing resin, having a downside of the lead portion exposed.
Owner:DAI NIPPON PRINTING CO LTD
Implants having three distinct surfaces
ActiveUS20120316650A1Positively influence naturally occurring biological bone remodelingPositively fusion responseBone implantSpinal implantsRough surfaceBone structures
An interbody spinal implant having at least three distinct surfaces including (1) at least one integration surface having a roughened surface topography including macro features, micro features, and nano features, without sharp teeth that risk damage to bone structures; (2) at least one graft contact surface having a coarse surface topography including micro features and nano features; and (3) at least one soft tissue surface having a substantially smooth surface including nano features. Also disclosed are processes of fabricating the different surface topographies, which may include separate macro processing, micro processing, and nano processing steps.
Owner:TITAN SPINE
OLED device having improved light output
ActiveUS20070200496A1Improve light outputImprove clarityDischarge tube luminescnet screensElectroluminescent light sourcesRough surfaceRefractive index
A top-emitting organic light-emitting diode (OLED) device, comprising: a substrate; an OLED comprising a reflective electrode formed on the substrate; one-or-more layers of organic light-emitting material formed over the reflective electrode; and a transparent electrode formed over the one-or-more layers of organic light-emitting material; a light-scattering layer having a rough surface formed over and in contact with the OLED, a cover affixed to the substrate forming a gap between the cover and the light scattering layer; and wherein the gap is a vacuum or the gap is filled with a relatively low-refractive index gas and the light-scattering layer comprises a plurality of relatively high-refractive index light-scattering transparent particles projecting into the gap without contacting the cover and further comprising an adhesive binder in contact with at least some of the light-scattering particles to adhere the light-scattering particles to the OLED.
Owner:GLOBAL OLED TECH
Growth of indium gallium nitride (InGaN) on porous gallium nitride (GaN) template by metal-organic chemical vapor deposition (MOCVD)
InactiveUS20090001416A1Increase indium incorporationLarge emissionsPolycrystalline material growthSemiconductor/solid-state device manufacturingIndiumGallium nitride
Si-doped porous GaN is fabricated by UV-enhanced Pt-assisted electrochemical etching and together with a low-temperature grown buffer layer are utilized as the template for InGaN growth. The porous network in GaN shows nanostructures formed on the surface. Subsequent growth of InGaN shows that it is relaxed on these nanostructures as the area on which the growth takes place is very small. The strain relaxation favors higher indium incorporation. Besides, this porous network creates a relatively rough surface of GaN to modify the surface energy which can enhance the nucleation of impinging indium atoms thereby increasing indium incorporation. It shifts the luminescence from 445 nm for a conventionally grown InGaN structure to 575 nm and enhances the intensity by more than two-fold for the growth technique in the present invention under the same growth conditions. There is also a spectral broadening of the output extending from 480 nm to 720 nm.
Owner:NAT UNIV OF SINGAPORE
Method of manufacturing group-iii nitride semiconductor light-emitting device, and group-iii nitride semiconductor light-emitting device, and lamp
ActiveUS20110062479A1Reduce thicknessWithout lowering device characteristicSolid-state devicesSemiconductor/solid-state device manufacturingQuantum efficiencyRough surface
Provided are a method of manufacturing a group-III nitride semiconductor light-emitting device in which a light-emitting device excellent in the internal quantum efficiency and the light extraction efficiency can be obtained, a group-III nitride semiconductor light-emitting device and a lamp. Included are an epitaxial step of forming a semiconductor layer (30) so as to a main surface (20) of a substrate (2), a masking step of forming a protective film on the semiconductor layer (30), a semiconductor layer removal step of removing the protective film and the semiconductor layer (30) by laser irradiation to expose the substrate (2), a grinding step of reducing the thickness of the substrate (2), a polishing step of polishing the substrate (2), a laser processing step of providing processing marks to the inside of the substrate (2), a division step of creating a plurality of light-emitting devices (1) while forming a division surface of the substrate (2) to have a rough surface.
Owner:TOYODA GOSEI CO LTD
Natural mineral adsorption filtering agent
InactiveCN1883745ALight weightLarge specific surface areaFiltration separationSilicon compoundsRough surfaceFiltration
The invention discloses a natural mineral adsorption filtration agent, which comprises acidified zeolite, acidified attapulgite clay, acidified bentonite, acidified kieselguhr, volcanic rock and high-alumina clay. The preparation method of filtration agent is mixing, disintegrating, screening and packaging raw material to finished product. The filtration agent particles have rough surface, a lot of micropore inside, light specific gravity, large specific surface area and good adsorption capability, and are main raw material for preparing forming filtration material such as filtration plate, filtration block, filtration core, filtration pottery slice and filtration ring.
Owner:淮安神力特矿业有限公司
Multilayer wiring substrate and method of manufacturing the same
InactiveUS20120153463A1Avoid layeringDistribute pressureSemiconductor/solid-state device detailsPrinted circuit aspectsRough surfaceInsulation layer
To provide a multilayer wiring substrate in which the connection reliability of via conductors is enhanced, via holes are formed in a resin interlayer insulation layer which isolates a lower conductor layer from an upper conductor layer, and via conductors are formed in the via holes for connecting the lower conductor layer and the upper conductor layer. The surface of the resin interlayer insulation layer is a rough surface, and the via holes open at the rough surface of the resin interlayer insulation layer. Stepped portions are formed in opening verge regions around the via holes such that the stepped portions are recessed from peripheral regions around the opening verge regions. The stepped portions are higher in surface roughness than the peripheral regions.
Owner:NGK SPARK PLUG CO LTD
Surface preparation for selective silicon fusion bonding
InactiveUS7372074B2Semiconductor/solid-state device detailsSolid-state devicesRough surfaceEngineering
Owner:HONEYWELL INT INC
Light emitting element and manufacturing method for the same
InactiveUS20040026700A1Solid-state devicesSemiconductor/solid-state device manufacturingRough surfaceLight-emitting diode
A light emitting element includes: a light emitting layer; a rectangular first principal surface being parallel to the light emitting layer; a rectangular second principal surface opposing to the first principal surface so that the light emitting layer is sandwiched between the first and second principal surfaces; and first through fourth side surfaces of the light emitting element provided with a rough surface, the first through fourth side surfaces connecting between the first principal surface and the second principal surface, respectively so as to define a solid shape.
Owner:KK TOSHIBA
Super hydrophobic cotton fabric and preparation method thereof
The invention belongs to the fabric water-repellent finishing and processing field, in particular relates a super hydrophobic cotton fabric and a preparation method thereof. The preparation method of the super hydrophobic cotton fabric is characterized in that the epoxy-functionalized modification is performed to the cotton fiber of fabric, then aminated nano-SiO2 and epoxy-functionalized nano-SiO2 are used to impregnate the cotton fabric in turn so as to increase the surface roughness of the fabric, finally a low-surface-energy material is adopted to perform hydrophobization treatment to the fabric; the contact angle between the prepared cotton fabric and water drops is more than 150 degrees; the method utilizes the covalent reaction of epoxy groups of cotton fabric, amino groups of nano-SiO2 and epoxy groups of nano-SiO2 to ensure the built rough surface to have good fastness; and the built surface has a large number of Si-OHs and epoxy groups so as to facilitate the chemical combination of the low-surface-energy material and the surface, thus the superhydrophobic property of the prepared fabric has excellent stability.
Owner:SHAANXI UNIV OF SCI & TECH
Vacuum sealable bag apparatus and method
In some embodiments of the present invention, a strip of material is employed to assist in evacuating a storage bag. Although this venting strip can be used in vacuum sealing any type of plastic bag, in some preferred embodiments the venting strip is used in vacuum sealing storage bags having one or more heat sealable inner layers and one or more outer layers resistant to gas permeation. The venting strip can be apertured and / or can have a textured or rough surface that creates channels between the inside surface of the storage bag and the venting strip, thereby allowing air to exit from the interior of the storage bag. The venting strip can be made at least partially of heat-sealable material, and can melt with heat sealable inner layers of the storage bag when a vacuum sealer applies heat to seal the storage bag.
Owner:FOODFRESH TECH
Golf club head and surface finishing tool and method for forming pattern thereon
InactiveUS20070135229A1Simple processLow costBonded abrasive wheelsGolf clubsSurface finishRough surface
A surface finishing tool and a fabricating method for forming a pattern on a golf club head are provided. The surface finishing tool comprises a shank, a resilient cylinder, and a rubbing head. The shank has a center axis, and the resilient cylinder is disposed along the center axis and fixed on an end of the shank. The rubbing head has a rough surface and is disposed on the resilient cylinder. The fabricating method applies the surface finishing tool to form the pattern on the golf club head, wherein the surface finishing tool is driven to rotate along the center axis first. Then, the surface finishing tool is moved for keeping the rough surface of the rubbing head contacting with the golf club head, wherein the resilient cylinder is deformed along a profile of the golf club head as the rubbing head contacts with the golf club head.
Owner:FUSHENG IND CO LTD
Self-cleaning superhydrophobic surface
ActiveUS20060147634A1Material nanotechnologyNanoinformaticsPhotocatalytic reactionUltraviolet lights
A method for providing a superhydrophobic surface on a structure, for example aircraft wings, propellers and / or rotors, is set forth. The method includes applying a coating of hydrofluoric acid over a titanium substrate. A voltage is then applied across the titanium substrate so that current flows through the titanium substrate. The current flowing through the titanium substrate causes the hydrofluoric acid to react with the titanium substrate to anodize the titanium substrate. The anodization causes a nanoporous titanium oxide layer to grow across the titanium substrate. The titanium oxide layer includes a plurality of nano-tube structures that, once the remaining hydrofluoric acid is washed away, provide a microscopically rough surface on the titanium substrate. A conformal coating of a hydrophobic compound is then desposited on the microscopically rough surface to create a superhydrophobic surface. Thus, a substantially self-cleaning superhydrophobic surface is created on the titanium substrate, whereby, when exposed to ultraviolet light, the titanium oxide layer has a photocatalytic reaction with oxygen to oxidize any organic contaminants that may gather on the superhydrophobic surface.
Owner:THE BOEING CO
Semiconductor light emitting device
InactiveUS20080093612A1Good effectFilm thickness of lightSolid-state devicesSemiconductor devicesRough surfaceActive layer
A plurality of semiconductor layers including an active layer 6 and a light extract layer 4, and a reflective metal film 11 are formed in a semiconductor light emitting device. The light extract layer 4 is formed of a plurality of layers 23, 24 having different composition ratios. An irregularity 22 is formed on the layers 23, 24 including an outermost layer to provide a main surface S as a rough-surface.
Owner:SUMITOMO CHEM CO LTD
Inhalation particles incorporating a combination of two or more active ingredients
InactiveUS7267813B2More controlled deliveryGood dispersionPowder deliveryBiocideDiseaseBULK ACTIVE INGREDIENT
Crystalline spherical inhalation particles incorporating a combination of two or more different active ingredients and a process for the preparation thereof. The particles have a narrow particle size distribution, rough surfaces and improved stability. The inhalation particles of the invention are particularly useful in the administration of a combination medicament, e.g. a combination of an anti-inflammatory agent and a bronchodilator, by inhalation in the treatment of asthma and other respiratory disorders.
Owner:ORION CORPORATION
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