| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 422503000 | Plate design or structure | 52 |
| 20100310437 | Microchip and Method for Manufacturing the Same - Provided are a microchip formed by joining a resinous film onto a resinous substrate, which enables the prevention of a leak due to peeling of a peripheral portion and prevention of deformation and clogging of a microchannel, and a method for manufacturing the same. The microchip comprises a resinous substrate including a first surface in which a channel groove is formed and a second surface on the side opposite to the first surface, and a resinous film joined to the first surface of the resinous substrate. A joint plane between the resinous substrate and the resinous film is composed of a central area including an area in which the channel groove is formed and a peripheral area corresponding to the outer periphery of the central area, the joint strength between the resinous substrate and the resinous film in the central area is larger than 0.098 N/cm, and the joint strength in at least part of the peripheral area of the joint plane is larger than the joint strength in the central area. | 12-09-2010 |
| 20110014096 | PHOTORESPONSIVE GAS-GENERATING MATERIAL, MICROPUMP AND MICROFLUID DEVICE - The present invention provides a photoresponsive gas-generating material that is to be used in a micropump of a microfluid device having fine channels formed therein, and is capable of effectively generating gases for transporting a microfluid in response to light irradiation and transporting the microfluid at an improved transport efficiency. The present invention also provides a micropump incorporating the photoresponsive gas-generating material. | 01-20-2011 |
| 20110033348 | Microchip and Method for Manufacturing Microchip - A microchip has a resin substrate, which is provided with a first surface whereupon a channel groove is formed and a second surface on the opposite side to the first surface, and the microchip also has a resin film bonded on the first surface. A projection area is larger than the area of the first surface of the resin substrate when the resin substrate is viewed from a direction orthogonally intersecting with the first surface. Thus, warpage of the microchip can be suppressed at the time of thermally bonding the resin substrate and the resin film by a roller. | 02-10-2011 |
| 20110038767 | MICROFLUIDIC DIAGNOSTIC DEVICE - A method of making a microfluidic diagnostic device for use in the assaying of biological fluids, whereby a layer of adhesive in a channel pattern is printed onto a surface of a base sheet and a cover sheet is adhered to the base sheet with the adhesive. The layer of adhesive defines at least one channel, wherein the channel passes through the thickness of the adhesive layer. | 02-17-2011 |
| 20110044865 | MICROFLUIDIC SYSTEM AND METHOD FOR USING SAME - In a microfluidic system, a magnetic clamp for sealing a flexible microchannel chip includes a base formed from a magnetically-attractable material. The base supports a window for viewing the face of the microfluidic chip. A ring with magnets uniformly distributed around it is disposed over the base. A transparent disk attached to the top of the ring has an inlet and an outlet for introducing and removing a fluid medium into a cavity defined the disk, the window, the center opening of the ring and the base. An elastomer cushion is attached to the inner surface of the disk. The magnetic force between the base and the magnets on the ring compresses the cushion against the microfluidic chip so that the microchannels are sealed against the window with a uniform and reproducible pressure. | 02-24-2011 |
| 20110081280 | MICROFLUIDIC CHIP AND METHOD OF FABRICATING THE SAME - Provided are a microfluidic chip and a method of fabricating the same. The microfluidic chip includes: a lower substrate; an upper substrate formed of a silicone resin, wherein the lower substrate and the upper substrate, bonded together, provide a channel through which a fluid can flow and a chamber to receive the fluid; and an organic thin film formed on the upper surface of the lower substrate except for portions on which the lower substrate and the upper substrate are attached to each other. | 04-07-2011 |
| 20110116992 | PROCESSING MICROTITRE PLATES FOR COVALENT IMMOBILIZATION CHEMISTRIES - Disclosed herein is a method of: treating an organic polymer with an electron beam-generated plasma; exposing the treated polymer to air or an oxygen- and hydrogen-containing gas, generating hydroxyl groups on the surface of the polymer; reacting the surface with an organosilane compound having a chloro, fluoro, or alkoxy group and a functional or reactive group that is less reactive with the surface than the chloro, fluoro, or alkoxy group; and covalently immobilizing a biomolecule to the functional or reactive group or a reaction product thereof. | 05-19-2011 |
| 20110223080 | FLUIDIC DEVICE CONTAINING 3D STRUCTURES - A micro fluidic device comprises a laminate structure, comprising a plurality of individual layers. At least one layer comprises a micro fluidic channel structure and at least on one side of said layer a further layer is arranged comprising a three-dimensional (3D) micro structure such that the 3D micro structure is influencing a flow characteristic of a fluid within the micro fluidic channel structure. | 09-15-2011 |
| 20110243813 | DIAGNOSTIC CARD WITH MICRO-FLUIDIC CHANNELS AND METHOD OF CONSTRUCTION THEREOF - An in vitro diagnostic card and method of construction thereof is provided. The card includes an intermediate layer having opposite faces with at least one channel extending through the faces. A translucent first layer is fixed to one of the faces of the intermediate layer and a translucent second layer is fixed to the other of the faces of the intermediate layer opposite the translucent first layer. The channel in the intermediate layer is substantially sealed off by the first and second layers. Further, an opaque material that is absorbent to laser beam energy bonds the intermediate layer to the first and second layers. | 10-06-2011 |
| 20110262321 | MICROFLUIDIC DEVICE AND MICROFLUIDIC SYSTEM WITH THE SAME - Provided is a microfluidic device and microfluidic system with the device. The microfluidic device includes a substrate; a channel formed in the substrate and in which a fluid can move; a valve controlling flow of a fluid flowing along the channel and including a phase transition material which can be melted by energy such as electromagnetic wave energy; and a lens disposed on the substrate and adjusting an irradiating region of the valve, onto which the energy is applied. | 10-27-2011 |
| 20110286896 | Patterning Of Surfaces To Control The Storage, Mobility And Transport Of Liquids For Microfluidic Applications - Systems and methods to pattern surfaces to create regions of variable adhesive force on a superhydrophobic paper surface. By taking advantage of high surface energy sticky islands on a non-sticky superhydrophobic surface, microliter water drops can be registered or confined at specific locations; selected drops can then be transferred to another patterned substrate and the drops mixed and/or allowed to react without the need for pipettes or other fluid transfer tool. | 11-24-2011 |
| 20120009099 | MICROFLUIDIC DEVICES - Microfluidic devices are prepared by providing a substrate material having a solid adhesive thin sheet, printing solid ink on the substrate using a conventional printer, selectively etching the substrate using a wax masking layer to obtain a desired pattern, removing the masking layer from the substrate, aligning and bonding together the pattern of the substrate to a pattern of a second substrate to form a layer of substrates, and curing the layer of substrates to result in a three-dimensional microfluidic device. | 01-12-2012 |
| 20120251410 | FLUIDIC CHIP WITH LAMINATED REINFORCING LAYER FOR PRESSURE REINFORCEMENT - A fluidic chip device configured for processing a fluidic sample includes two outer boundary layers, and at least one reinforcing layer arranged between the two outer boundary layers and being at both of its opposing main surfaces laminated with directly adjacent layers to reinforce pressure resistance of the fluidic chip device by the lamination, in which at least a part of the layers of the fluidic chip device includes a hole forming at least a part of a fluidic conduit for conducting the fluidic sample under pressure. | 10-04-2012 |
| 20120275972 | JOINING METHOD AND JOINT FOR MICROFLUIDIC COMPONENTS - The invention relates to joining plastic components into a microfluidic cartridge ( | 11-01-2012 |
| 20120315203 | MICROFLUIDIC CIRCUIT - The invention relates to a microfluidic circuit including at least one microchannel for the flow of a first fluid conveying drops or bubbles of at least one second fluid, characterised in that the height of the microchannel is sized so as to crush the drops or bubbles during the movement thereof, and in that the microchannel comprises at least one trough, extending at least partially in the direction of flow of the first fluid or an area for trapping drops or bubbles, said area or the trough having a height that is greater than the height of the microchannel, such that at least some of the drops or bubbles of the second fluid in the microchannel are drawn and guided into the trough or into the trapping area. | 12-13-2012 |
| 20120328488 | MICROFLUIDIC ASSAY PLATFORMS - This invention discloses novel improvements to conventional microtiter plates, involving integrating microfluidic channels with such microtiter plates to simplify the assay operation, Increase operational speed and reduce reagent consumption. The present invention can be used in place of a conventional microliter plate and can be easily substituted without any changes to the existing instrumentation systems designed for microtiter plates. The invention also discloses a microfluidic device integrated with sample loading wells wherein the entire flow process is capillary driven. | 12-27-2012 |
| 20130071305 | METHOD FOR MANUFACTURING A MICROFLUIDIC CHIP, AND RELATED CHIP AND PLATE - The invention relates to a method for manufacturing a microfluidic chip, wherein said method comprises the steps of: providing a plate combined with a layer of inorganic silica gel of formula: (HsiO | 03-21-2013 |
| 20130121893 | MICROFLUIDIC DEVICE WITH DEFORMABLE VALVE - A microfluidic device includes a first microchannel, a second microchannel, and a valve comprising at least an input port and an output port, the ports respectively connected to the first microchannel and the second microchannel, the valve designed to control a flow of a liquid along a flow direction (z) defined by the ports; wherein the valve further comprises one or more walls joining the ports and defining a hollow chamber that is wider than each of the microchannels in a direction perpendicular to the flow direction, the walls at least partly deformable along a deformation direction (−y) intersecting the flow direction, such that the walls can be given at least a first deformation state and a second deformation state, such that the liquid can be pulled along the flow direction substantially more in the second deformation state than in the first deformation state. | 05-16-2013 |
| 20130121894 | ANALYSIS TOOL AND MICROANALYSIS SYSTEM - An analysis tool suppressing background and improving detection sensitivity. In a first plate ( | 05-16-2013 |
| 20130266490 | HIGH-DENSITY ION TRANSPORT MEASUREMENT BIOCHIP DEVICES AND METHODS - The present invention includes biochips for the measurement of cellular ion channels and methods of use and manufacture. The biochips of the present invention have enhanced sealing capabilities provided in part by chemically modifying the surface of the biochip surface or substrate or by exposure to an ionized gas. The present invention also includes novel cartridges for biochips. | 10-10-2013 |
| 20130294982 | LIQUID CHANNEL DEVICE AND PRODUCTION METHOD THEREFOR - The present invention relates to a liquid channel device capable of easily opening the liquid channel from the closed mode, including a base plate in which a liquid channel, through which a liquid containing at least one of a sample and a reagent, flows, and a metering chamber for holding the liquid, are formed to at least one side thereof, the metering chamber has a liquid transport section for transporting the liquid inside the chamber downstream, and this liquid transport section is operated by means of external pressing on a cover plate in the area opposite the metering chamber. | 11-07-2013 |
| 20130330246 | MICRO-FLUIDIC DEVICE - The present invention relates to a micro-fluidic device comprising a process channel having a top wall, a bottom wall and side walls, the process channel having a height between 0.2 mm and 3 mm, a width between 1.0 and 50 mm and support means within said process channel. The support means extends between the bottom wall and the top wall of the process channel in a direction substantially perpendicularly to the top wall. The micro-fluidic device comprises at least one heat exchange means parallel to the process channel and optionally comprises a static mixing element. The present invention further relates to a kit of parts and a micro-fluidic system comprising such micro-fluidic devices. | 12-12-2013 |
| 20140017150 | MICROFLUIDIC DROPLET GENERATOR - A microfluidic droplet generator device, a kit of parts for assembling a microfluidic droplet generator device, and a method of generating microfluidic droplets. The generator device comprises a substrate; a microfluidic channel formed in the substrate; a fluid outlet in fluid communication with the microfluidic channel; and a mechanical element configured such that vibration of the mechanical element causes droplet dispensing from the fluid outlet. | 01-16-2014 |
| 20140023566 | FLUID HANDLING DEVICE AND FLUID HANDLING SYSTEM - The present invention relates to a microchannel chip capable of preventing fluid leakage caused by a lamination defect. Bottomed first regions, second regions, and third regions are formed by joining a film to a lower surface of the chip main body of a microchannel chip. The third regions are in communication with the second regions and are formed on carbon inks. The third regions are formed wider than the carbon inks are. The third regions are filled with an electroconductive adhesive. | 01-23-2014 |
| 20140120010 | INSERT ASSEMBLY FOR A MICROFLUIDIC DEVICE - Techniques and devices are provided related to insert assemblies that may be used in conjunction with microfluidic devices. In one embodiment, the insert assemblies include a functional material, such as a solid stationary phase, that may be coupled to a microfluidic pathway via the insert assembly. In this manner, solid stationary phase materials that may be challenging to directly apply to a microfluidic device may be separately enclosed inside the insert element prior to assembly into a microfluidic device, such as a microfluidic chip. | 05-01-2014 |
| 20140134074 | DEVICE FOR HANDLING MICROFLUIDS AND A METHOD OF MANUFACTURING A DEVICE FOR HANDLING MICROFLUIDS - A device for handling microfluids comprises at least two layers formed from porous hydrophilic material, to each of which is added hydrophobic material through the thickness of the layer to form a hydrophobic barrier defining the boundaries of a channel, so that a fluid arriving in the channel in the layer can travel along the channel in the plane of the layer bordered by the boundary, which at least two layers are fixed on top of each other by an adhesive substance arranged between the layers so that the fluid can be transferred from the channel of one layer directly to the channel of another layer. The adhesive substance is arranged on the boundary or in its immediate vicinity so that the channel remains free of the adhesive substance. | 05-15-2014 |
| 20140147347 | METHOD FOR PRODUCING A FLUIDIC DEVICE - A method for producing a microfluidic device includes: a) forming a carrier plate in an injection compression molding tool; b) arranging at least one functional element on one side of the carrier plate; c) forming a cover plate in an injection compression molding tool, wherein the injection compression molding tool is the same or different than that used to form the carrier plate; and d) arranging the cover plate on the carrier plate to cover the at least one functional element and to seal the fluidic device in an airtight manner. | 05-29-2014 |
| 20140178267 | MICROCHIP - Disclosed is a microchip. The microchip of the present invention is characterized by comprising: a first plate; and a second plate coupled to the first plate to form a channel, wherein the first plate comprises: a channel cover part; a first connection part spaced apart from the outer periphery of the channel cover part by a certain distance; and a tensile strength generation connecting part for mutually connecting the channel cover part and the first connection part so that the channel cover part elastically contacts the channel region formed on the second plate when the first plate is coupled to the second plate. According to the present invention, the channel cover part forming the channel elastically contacts the channel region formed on the second plate, thereby providing a microchip capable of providing a channel having a stable structure. | 06-26-2014 |
| 20140286835 | MICROFLUIDIC DIAGNOSTIC DEVICE - A method of making a microfluidic diagnostic device for use in the assaying of biological fluids, whereby a layer of adhesive in a channel pattern is printed onto a surface of a base sheet and a cover sheet is adhered to the base sheet with the adhesive. The layer of adhesive defines at least one channel, wherein the channel passes through the thickness of the adhesive layer. | 09-25-2014 |
| 20140301911 | MECHANICALLY SUPPORTING MICROFLUIDIC DEVICES - A microfluidic assembly includes a planar microfluidic separation device and a support body configured to receive the planar microfluidic separation device therein. The support body is configured to apply a substantially distributed compressive preload to a substrate of the planar microfluidic separation device. The compressive preload applied to the planar microfluidic separation device may increase the achievable operating pressure of the planar microfluidic separation device. | 10-09-2014 |
| 20150078971 | METHOD OF CONTINUOUSLY MANUFACTURING MICROFLUIDIC CHIPS WITH BoPET FILM FOR A MICROFLUIDIC DEVICE AND MICROFLUIDIC CHIPS WITH BoPET FILM - A microfluidic chip includes a thin biaxially-oriented polyethylene terephthalate (“BoPET”) film and a micro-channel in the BoPET film. A method for manufacturing a microfluidic chip includes coating UV epoxy on a first side of a BoPET film, placing the BoPET film on a first substrate with the first side facing the first substrate, curing the UV epoxy on the first side of the BoPET film to attach the BoPET film on the first substrate; forming at least one microfluidic pathway in the BoPET film, coating UV epoxy on a first side of a second substrate, placing the second substrate on the BoPET film with the first side of the second substrate facing a second side of the BoPET film, and curing the UV epoxy on the first side of the second substrate to attach the BoPET film to the second substrate. The microfluidic chip may be a multi-layered chip. | 03-19-2015 |
| 20150086445 | FLUID INJECTION CHIP - There is provided a fluid injection chip including: a first substrate in which a plurality of wells are formed; a first fluid formed in the wells; a second substrate of which a plurality of pillar members are formed on a lower surface so as to correspond to the wells; a low adhesive layer formed on a protrusion surface of the pillar member; and a second fluid formed on the low adhesive layer. | 03-26-2015 |
| 20150086446 | CHANNEL DEVICE - A channel device includes a first substrate having a groove portion for forming a channel, and a second substrate having a protruding portion that covers the groove portion, the first substrate and the second substrate being bonded together with an adhesive. The protruding portion of the second substrate extends along the extending direction of the groove portion of the first substrate, and mutually corresponding parts of the protruding portion of the second substrate and the groove portion of the first substrate are in direct and linear contact with each other without an adhesive therebetween, and the channel is thereby formed. | 03-26-2015 |
| 20150093303 | METHOD TO PRODUCE CHEMICAL PATTERN IN MICRO-FLUIDIC STRUCTURE - The present disclosure provides flow cells and methods of fabricating flow cells. The method includes combining three portions: a first substrate, a second substrate, and microfluidic channels between the first substrate and the second substrate having walls of a photoresist dry film. Through-holes for inlet and outlet are formed in the first substrate or the second substrate. Patterned capture sites are stamped on the first substrate and the second substrate by a nanoimprint lithography process. In other embodiments, parts of the patterned capture sites are selectively attached to a surface chemistry pattern formed of silicon oxide islands each disposed on an outcrop of a soft bottom layer. | 04-02-2015 |
| 20150118126 | TRANSMISSION ELECTRON MICROSCOPE CELLS FOR USE WITH LIQUID SAMPLES - This disclosure provides systems, methods, and devices related to transmission electron microscopy cells for use with liquids. In one aspect a device includes a substrate, a first graphene layer, and a second graphene layer. The substrate has a first surface and a second surface. The first surface defines a first channel, a second channel, and an outlet channel. The first channel and the second channel are joined to the outlet channel. The outlet channel defines a viewport region forming a though hole in the substrate. The first graphene layer overlays the first surface of the substrate, including an interior area of the first channel, the second channel, and the outlet channel. The second graphene layer overlays the first surface of the substrate, including open regions defined by the first channel, the second channel, and the outlet channel. | 04-30-2015 |
| 20150314585 | Methods to form and to dismantle hermetically sealed chambers - Embodiments generally relate to methods for forming and dismantling a hermetically sealed chamber. In one embodiment, the method comprises using room temperature laser bonding to create a hermetic seal between a first element and a second element to form a chamber. A bond interface of the hermetic seal is configured to allow the hermetic seal to be opened under controlled conditions using a release technique. In one embodiment, the chamber is formed within a microfluidic chip and the chamber is configured to hold a fluid. In one embodiment a chip comprises a first hermetic seal bonding first and second elements to create a first chamber and a second hermetic seal bonding third and fourth elements to create a second chamber encompassing the first chamber. The first hermetic seal may be broken open independently of the second hermetic seal by the application of a mechanical or thermal technique. | 11-05-2015 |
| 20150328635 | MICROFLUIDIC DEVICE - A microfluidic device includes a first substrate made of a first polymer material and a second substrate made of a second polymer material, the first and second substrates having respective bonding surfaces, at least one of the bonding surfaces having channel formations so that, when the bonding surfaces are bonded by surface deformation to one another, the bonded first and second substrates and the channel formations form at least part of a microfluidic channel network comprising a plurality of microfluidic channels, wherein one or more indicator pits, separate to the channel formations defining the microfluidic channel network, are formed in at least one of the bonding surfaces, so that surface deformation caused by the bonding process causes a change of configuration of the one or more indicator pits. | 11-19-2015 |
| 20160045917 | POLYCARBONATE MICROFLUIDIC ARTICLES - Microfluidic devices, and methods for their use are described. The microfluidic devices include articles formed from a thermoplastic composition comprising a poly(aliphatic ester)-polycarbonate comprising soft block ester units, derived from monomers comprising an alpha, omega C | 02-18-2016 |
| 20160067708 | A LAB-ON-A-CHIP FABRICATION METHOD AND SYSTEM - A method for fabrication of a lab-on-a-chip system makes use of first and second mold parts, which are adapted to join each other to form a cavity to accommodate a positioning means and a support structure. The method includes receiving the chip in the positioning means, forming the cavity by joining the first and second mold parts, securing the chip with a fluid port of the chip to rest on the support structure for the support structure to mask the fluid port, introducing a molding material into the cavity to over-mold at least part of the chip and a volume extending away from the chip, separating the first and second mold parts, and extracting the chip from the mold. A fluid channel is formed by the support structure. | 03-10-2016 |
| 20160067709 | MICRO-CHANNEL MODULE - A micro-channel module including a lower plate, an upper plate and a double-side tape is provided. The upper plate is disposed on the lower plate. The double-side tape is disposed between the upper plate and the lower plate, so as to fix the upper plate and the lower plate, wherein the double-side tape has a plurality of micro-channel patterns, so as to define a plurality of micro-channels between the upper plate and the lower plate, and a liquid is adapted to flow in the micro-channels. | 03-10-2016 |
| 20160074864 | FLUID INTERFACE CARTRIDGE FOR A MICROFLUIDIC CHIP - An interface cartridge for a microfluidic chip, with microfluidic process channels and fluidic connection holes at opposed ends of the process channels, provides ancillary fluid structure, including fluid flow channels and input and/or waste wells, which mix and/or convey reaction fluids to the fluidic connection holes and into the process channels of the microfluidic chip. | 03-17-2016 |
| 20160082435 | DEVICE AND METHODS USING POROUS MEDIA IN FLUIDIC DEVICES - A system that incorporates teachings of the subject disclosure may include, for example, a process that includes obtaining a porous medium comprising a porous material having a first shape and an initial porosity profile. The porous medium is engaged with a cavity in a fluidic device, wherein the cavity is in fluid communication with a channel of the fluidic device. The first shape of the porous material can be adjusted to a second shape resulting in the initial porosity profile being adjusted to a target porosity profile. Such adjustment can be accomplished by the engaging of the porous medium with the cavity, by pre-adjusting a shape of the porous media before insertion into the cavity, or by some combination thereof. Other embodiments are disclosed. | 03-24-2016 |
| 20160089672 | MICROFLUIDIC DEVICE AND A METHOD FOR PREPARING THE MICROFLUIDIC DEVICE FROM A PHOTOSENSITIVE ELEMENT - A microfluidic device is formed from a cover member and a microfluidic precursor that is prepared from a photosensitive element. The photosensitive element is a solid layer of a photopolymerizable composition that includes at least a binder, a monomer, and a photoinitiator. A method for forming the microfluidic device from the photosensitive element includes imagewise exposing the photopolymerizable layer to actinic radiation through a mask and treating to form a relief surface having microstructures or features, such as one or more channels and one or more chambers, that are suitable for use in the microfluidic device. The method provides microstructures that can be formed to have different dimensions that provide particular advantages for a microfluidic device that is operated by degas-driven flow to transport a fluid through the microstructures. | 03-31-2016 |
| 20160121327 | METHOD OF BONDING TWO SURFACES AND CONSTRUCT THEREFROM AND MICROFLUIDIC DEVICE CONTAINING THE CONSTRUCT - Provided is a method of bonding two surfaces, which includes providing nitrogen or ammonia plasma to a plastic material where a polysiloxane contacted, and a construct manufactured therefrom. | 05-05-2016 |
| 20160121328 | FLUIDIC CARD COMPRISING A FLUIDIC CHANNEL PROVIDED WITH AN OPENING RESEALABLE BY MEANS OF A FLEXIBLE FILM - A fluidic card including a rigid support and a fluidic channel at least partially formed in the rigid support. The fluidic channel includes an opening coming out on an outer surface of the rigid support, and the fluidic card further includes a flexible film disposed on the outer surface of the rigid support, at least at the opening of the fluidic channel, the flexible film configured to be deformed between a closed position in which it enables the fluidic channel to be closed to prevent a fluid flow from the fluidic channel through the opening and an open position in which it allows presence of a fluid flow space from the fluidic channel through the opening. | 05-05-2016 |
| 20160144357 | APPARATUSES WITH PRE-PACKAGED REAGENTS - Apparatuses with pre-packaged reagents comprise a reagent package and a protrusion member. More particularly, the reagent package comprises a base and a cover layer, in which the base further comprises at least one pocket. Each pocket is configured to store a reagent, and the cover layer is configured on the at least one pocket to seal the at least one pocket. The protrusion member further comprises an opening and is configured at an injection site, in which the injection site is on each storage chamber disposed on a microfluidic disc. Furthermore, the configuration of the pockets on the base is in accordance with the configuration of the protrusion members. Therefore, the protrusion members would punch through the pockets once the protrusion members are aligned and combined to the pockets. And the following rotation of the microfluidic disc would generate centrifugal force and sequentially release reagents into storage chambers. | 05-26-2016 |
| 20180021772 | SYSTEM AND METHOD FOR REHYDRATING POWDER AND DELIVERING THE REHYDRATED POWDERTO A REACTOR | 01-25-2018 |
| 20180021779 | DEVICE AND METHODS USING POROUS MEDIA IN FLUIDIC DEVICES | 01-25-2018 |
| 20190143321 | FABRICATION OF MICROFLUIDIC CHIPS HAVING ELECTRODES LEVEL WITH MICROCHANNEL WALLS | 05-16-2019 |
| 20190143322 | Cartridge And Method Of Distributing Biological Sample In Fluid Channel Thereof | 05-16-2019 |
| 20190143332 | FLUIDIC CONNECTOR, MICROFLUIDIC CHIP CARTRIDGE, AND FLUIDIC CONNECTOR ASSEMBLY THEREOF | 05-16-2019 |
| 20190144268 | MICROFLUIDIC DEVICE WITH MANIFOLD | 05-16-2019 |
