Abstract: A system and method for integrating microfluidic components in a microfluidic system enables the microfluidic system to perform a selected microfluidic function. A capping module includes a microfluidic element for performing a microfluidic function. The capping module is stacked on a microfluidic substrate having microfluidic plumbing to incorporate the microfluidic function into the system. The microfluidic element may comprise a matrix having an affinity for selected molecules in a sample. The matrix binds, reacts with and/or retains the selected molecules without affecting other molecules in the sample.

Abstract: An integrated capillary electrophoresis system comprising a universal interface is disclosed. The universal interface includes one or more of the following structural elements: a chip assembly that receives a capillary electrophoresis CE chip; a fluidic interface for coupling fluids between the chip assembly and external sources or destinations; a first electrical interface for coupling power from an external source to the chip assembly; a second electrical interface for coupling electrical signals from the chip assembly to external analysis electronics; an optical interface for coupling optical signals between the chip assembly and external sources or destinations; and a docking station for uniting and spatially locating the various other structural elements.

Abstract: Nanofluidic devices incorporating inorganic nanotubes fluidly coupled to channels or nanopores for supplying a fluid containing chemical or biochemical species are described. In one aspect, two channels are fluidly interconnected with a nanotube. Electrodes on opposing sides of the nanotube establish electrical contact with the fluid therein. A bias current is passed between the electrodes through the fluid, and current changes are detected to ascertain the passage of select molecules, such as DNA, through the nanotube. In another aspect, a gate electrode is located proximal the nanotube between the two electrodes thus forming a nanofluidic transistor. The voltage applied to the gate controls the passage of ionic species through the nanotube selected as either or both ionic polarities. In either of these aspects the nanotube can be modified, or functionalized, to control the selectivity of detection or passage.

Abstract: A “cast-in-place” monolithic microporous polymer salt bridge for conducting electrical current in microfluidic devices, and methods for manufacture thereof is disclosed. Polymeric salt bridges are formed in place in capillaries or microchannels. Formulations are prepared with monomer, suitable cross-linkers, solvent, and a thermal or radiation responsive initiator. The formulation is placed in a desired location and then suitable radiation such as UV light is used to polymerize the salt bridge within a desired structural location. Embodiments are provided wherein the polymeric salt bridges have sufficient porosity to allow ionic migration without bulk flow of solvents therethrough. The salt bridges form barriers that seal against fluid pressures in excess of 5000 pounds per square inch. The salt bridges can be formulated for carriage of suitable amperage at a desired voltage, and thus microfluidic devices using such salt bridges can be specifically constructed to meet selected analytical requirements.

Abstract: The present invention relates to a solution introducing structure for introducing a plurality of solutions (a sample and/or a reagent solution) in highly accurate volume, in high amount and simply, into a channel (1) of a micro fluidic device, said channel (1) comprising not less than three side channels (2) for drain and not less than two side channels (3) for introducing a sample or a reagent solution.

Abstract: A fluidic device (100) comprising a substrate (101) and a transport medium (103) provided on the substrate (101) to define a transport path for transporting a fluidic sample (104) driven by an electric force.

Abstract: Scattering on analysis in a multi-capillary electrophoresis apparatus is suppressed. The multi-capillary electrophoresis apparatus has a multi-capillary array that has a sample and a separation medium for separating a sample charged therein, and has a sampling section formed at ends of the capillaries and a detector part for acquiring information depending on the sample thus separated, a means for applying a voltage between the sampling section and the detector part, a chamber part having an air blowing mechanism and a temperature controlling mechanism, a capillary housing base provided on a leeward side of the air blowing mechanism and housing the multi-capillary array, and a first straightening plate provided between the chamber part and the capillary housing base.

Abstract: The invention provides for devices and methods for interfacing microchips to cartridges and pneumatic manifolds. The cartridges, microchips, and pneumatic manifolds can be integrated with downstream preparation devices, such as thermal regulating devices and separation and analysis devices.

Abstract: A droplet microfluidic transporting module adapted for transporting a droplet is disclosed to include one or a number of connectors and one or a number of microfluidic transporting platform. Each connector defines a passage extending in one or multiple predetermined directions, and a first driving electrode extending along one side of the passage for the contact of the droplet to be transported. The microfluidic transporting platform is detachably electrically connected with the connector, defining a channel in communication with the passage of the connector and having a second driving electrode extending along one side of the channel for the contact of the droplet to be transported.

Abstract: Controlled electrokinetic transport of constituents of liquid media can be achieved by connecting at least two volumes containing liquid media with at least one dielectric medium with opposing dielectric surfaces in direct contact with said liquid media, and establishing at least one conduit across said dielectric medium, with a conduit inner surface surrounding a conduit volume and at least a first opening and a second opening opposite to the first opening. The conduit is arranged to connect two volumes containing liquid media and includes a set of at least three electrodes positioned in proximity of the inner conduit surface. A power supply is arranged to deliver energy to the electrodes such that time-varying potentials inside the conduit volume are established, where the superposition of said potentials represents at least one controllable traveling potential well that can travel between the opposing conduit openings.

Abstract: A flow controller which uses a combination of hydrostatic pressure and electroosmotic flow to control the flow of a fluid. A driving fluid (1204) whose flow rate is dependent on both hydrostatic pressures and electroosmotic flow can be used (a) directly as a working fluid in an operable device, for example a chromatograph, or (b) to displace a working fluid (1203) from a storage container (625) into an operable device (1301), or both (a) and (b). The driving fluid (1204) can be composed of one or more fluids. Part or all the driving fluid (1204) is passed through an electroosmotic device (100) so as to increase or decrease the flow rate induced by hydrostatic pressure.

Abstract: An apparatus and method for capillary zone electrophoresis includes a polyelectrolyte multilayer positioned in a capillary tube for analytical separations of macromolecules. The capillary comprises a passage defined by passage walls comprising fused silica. The polyelectrolyte multilayer is positioned within the passage adjacent the walls, and comprises an organic polyelectrolyte. The passage may further comprise nonporous silica particles coated with a multilayer including a plurality of polyelectrolyte layers. An apparatus includes a power supply having a positive electrode and a negative electrode for generating an electric field therebetween. The apparatus includes a capillary having a passage formed by passage walls and comprising therein a polyelectrolyte multilayer positioned substantially within the passage.

Abstract: The microfluidic device comprises at least one microchannel bounded by a bottom wall, side walls and a top wall and which is designed to contain at least one liquid and at least one fluid non-miscible with the liquid. The microfluidic device comprises means for stabilizing the interface between the liquid and the fluid. The means for stabilizing comprise at least one electrode arranged on at least one part of a first wall of the microchannel, over the entire length thereof, and at least one counter-electrode arranged over the entire length of the microchannel, on at least one part of a second wall, arranged facing the electrode. The electrode and counter-electrode are preferably respectively arranged on the bottom and top wall of the microchannel.

Abstract: The invention provides methods and systems for ruggedizing a nucleic acid analyzing apparatus. The ruggedized apparatus can be used reliably and effectively in uncontrolled environments, such as, for example at a crime scene to collect and analyze forensic data, as well as in semi-controlled environments, such as, for example at a point of care location.

Abstract: The present invention relates to a microchip apparatus using liquids. More specifically, the invention provides a liquid mixing apparatus comprising at least two microchannels for introducing liquids and a mixing microchannel that connects to the at least two liquid-introducing microchannels, wherein the liquids are transported from the respective liquid-introducing microchannels toward the mixing microchannel, the apparatus further comprising means for enhancing the mixing of the liquids that converge in the mixing microchannel. The invention also provides an electrophoretic apparatus and a microchip electrophoretic apparatus for denaturing gradient gel electrophoresis.

Abstract: Separation device of molecules and production method thereof. A molecule is separated from a liquid sample containing said molecule and at least one additional molecule having a larger hydrodynamic diameter than the hydrodynamic diameter of the molecule to be separated, by means of a separation device comprising a substrate, at least one circulation channel arranged in said substrate, and at least one nanotube associated with said molecule to be separated and formed on a free surface of the substrate. Separation is achieved by means of the internal channel of a nanotube, such as a carbon nanotube, presenting an effective diameter chosen in predetermined and controlled manner. The effective diameter of the internal channel is chosen such as to be larger than the hydrodynamic diameter of the molecule to be separated and smaller than the hydrodynamic diameter of the additional molecules of larger hydrodynamic diameters.

Abstract: Methods and apparatus for the selection or processing of particles sensitive to the application of an external stimulus, in which is produced, by applying the external stimulus, the rupture/lysis of at least one selected particle or the fusion of first and second selected particles, by means of the organisation of the particles using a first field of force by selectively energising electrodes of an array of selectable electrodes having dimensions comparable to or smaller than those of the particles, applying to the electrodes a first configuration of stresses; and by applying to the electrodes a second configuration of stresses, so as to create a second field of force, located substantially close to at least one selected particle to be lysated or to a pair of first and second particles to be fused and such as to produce the application of a stimulus suited to produce their lysis or fusion.

Abstract: An integrated capillary electrophoresis system comprising a universal interface is disclosed. The universal interface includes one or more of the following structural elements: a chip assembly that receives a capillary electrophoresis CE chip; a fluidic interface for coupling fluids between the chip assembly and external sources or destinations; a first electrical interface for coupling power from an external source to the chip assembly; a second electrical interface for coupling electrical signals from the chip assembly to external analysis electronics; an optical interface for coupling optical signals between the chip assembly and external sources or destinations; and a docking station for uniting and spatially locating the various other structural elements.

Abstract: The invention provides a capillary electrophoresis apparatus which can improve the operability and measuring speed. According to the invention, a sensor for identifying the type of sample containers is fixed at the position away from a capillary anode electrode. The sensor is made to be closer to the sample containers by moving a moving stage so that the sample containers disposed on the moving stage can be identified by the sensor. A fixing apparatus for fixing at least a pair of sample containers is provided on the moving stage.

Abstract: The invention provides a novel packing composition for separation and/or analysis which permits easy capillary replacement; a process for the production of the packing composition; a method for filling a capillary with the packing composition; and electrophoretic methods (such as capillary electrophoresis) with the same. The invention relates to a packing composition for electrophoretic separation and/or analysis which contains a long self-assembly produced by dissolving a low-molecular-weight amphiphilic compound having a hydrophobic moiety and a hydrophilic moiety in water under heating and then cooling the resulting solution; a process for the production of the packing composition; a method of separation and/or analysis with the composition; and so on.

Abstract: A modular multiple lane or capillary electrophoresis (chromatography) system that permits automated parallel separation and comprehensive collection of all fractions from samples in all lanes or columns, with the option of further on-line automated sample fraction analysis, is disclosed. Preferably, fractions are collected in a multi-well fraction collection unit, or plate. The multi-well collection plate is preferably made of a solvent permeable gel, most preferably a hydrophilic, polymeric gel such as agarose or cross-linked polyacrylamide.

Abstract: The present teachings provide emulsions using ionic liquids for separation of biomolecules and related methods, compositions, and devices.

Abstract: A device and a method for detecting and/or characterizing particles are shown. The device includes at least one nanopore, a voltage source for generating an electric potential difference between the two sides of the at least one nanopore in order to generate an ion current through the nanopore when the nanopore is surrounded by an electrolyte, and a measuring instrument adapted for recording a change in the impedance of the at least one nanopore in respect of the ion current when one or more particles that are to be detected and are present in the electrolyte pass(es) through the at least one nanopore. The device also includes a pipette with an end portion in which an opening is formed. A flow of the particles that are to be detected from outside the pipette is generated through the opening and through the nanopore, and the pipette is moved relative to a sample.

Abstract: The invention concerns the field of microfluidics and in particular that of electrophoresis on a micro- or nanofluidic device. More particularly, the invention concerns the use of a reactive polymer coating adapted to be submitted to a phase separation under the influence of an external stimulation of chemical or physical type, to modulate the electrokinetic flows (electroosmotic or electrophoretic flows during electrophoresis for example) in a micro- or nanofluidic device. The invention also concerns a method for varying the electrokinetic flows in such a device using said coating, as well as the micro- or nanofluidic devices comprising at least one channel or one capillary tube whereof the inner surface is covered at least partly with such a coating.

Abstract: A kit for optically detecting proteins, in particular lipoproteins, in a sample, the kit comprising: a chip for performing a separation of the proteins, in particular of the lipoproteins, wherein the chip comprises at least one well for receiving the sample, and a separation channel coupled to the at least one well and being adapted for separating different compounds and a marker dye which contains a polymethine of the general formula (I) wherein Z is a substituted derivative of benzooxazole, benzodiazole, 2,3,3-trimethylindolinine, 2,3,3-trimethyl-4,5-benzo-3H-indolinine, 3- and 4-picoline, lipidine, chinadine and 9-methylacridine derivatives with the general formula IIa or IIb or IIc and wherein X is selected from the group consisting of O, S, Si, N-alkyl and C(alkyl)2, n is 0, 1 , 2 or 3, R1 to R14 are independently selected from the group consisting of hydrogen, alkyl, alkoxy, cycloalkyl, linear or branched alkenyl, cycloalkenyl, aryl, heteroaryl, heterocycle, hydroxy, carboxy, amine, alkyl-substituted am

Abstract: A polymer-based PLOT column prepared by in situ copolymerization of a functional monomer, which usually contains the retentive chemistries, and a crosslinking monomer, which enhances the strength of the polymer matrix, is disclosed. Styrenic based monomers such as styrene and divinylbenzene or meth/acrylic based monomers such as butyl or stearyl methacrylate and ethylene glycol dimethacrylate, are preferred. Columns of the invention can be prepared in a robust fashion with a very narrow i.d., e.g., 5-15 ?m. Thus, they are suitable for commercial use in ultratrace LC/MS proteomic analysis. Columns according to the invention are characterized by high resolving power, high column-to-column reproducibility and relatively high loading capacity. When these columns are coupled on-line with, e.g., ESI-MS detection, the resulting systems provide high sensitivity for analysis of complex proteomic samples, even down to the low attomole to sub-attomole level.

Abstract: A contacting device, comprising a contacting element (104) for providing an electrical contact to fluid (103) insertable into a well (105) of a carrier element (106) to be coupled to a microfluidic chip (107), wherein the contacting element (104) is adapted to be attachable to or to be integrally formed with the carrier element (106).

Abstract: A method and apparatus are provided for performing capillary isoelectric focusing followed by mobilization of the focused zones by induced hydrodynamic flow or chemical mobilization. These two dimensions of separation are integrated with real-time whole-channel electrophoresis detection and automatic sample injection to achieve a separation resolution superior to that obtainable using known orthogonal capillary two dimensional arrangements.

Abstract: A one-piece, microfluidic package with standardized multiple ports allows devices to be connected in series without resorting to extra tubing connections or bonding processes. The one-piece construction consists of microfluidic channels that can be connected to fluid reservoirs and other fluidic components fabricated with interconnecting and interlocking ports. The size of the friction-fit interlocking ports is designed such that the smaller male port fits snugly into the larger female port in a manner that is leak-free and adhesive-free. The friction-fit ports can also be reconfigured. Thus, the interconnection of microfluidic packages can be in an extended series including connections to sensors and devices such as a bio/biochemical/chemical sensor chip, a dielectrophoretic manipulator chip, and a microfluidic reactor chip.

Abstract: A fluidic device includes a porous substrate, a wetting region extending through a first portion of the porous substrate from a first side of the substrate, in which the wetting region is permeable to fluid transport, and a non-wetting region extending through a second portion of the porous substrate from a second side of the substrate, in which the non-wetting region is operable to switch between a first state impermeable to fluid transport and a second state permeable to fluid transport.

Abstract: A system, method and apparatus employing the laminar nature of fluid flows in microfluidic flow devices in separating, sorting or filtering colloidal and/or cellular particles from a suspension in a microfluidic flow device is disclosed. The microfluidic flow device provides for separating a particle within a suspension flow in a microfluidic flow chamber. The chamber includes a microfluidic channel comprising at least one inlet port for receiving a suspension flow under laminar conditions, a first outlet port and a second outlet port. The chamber further includes an interface for translating a particle within the channel. The first outlet port receives a first portion of the suspension exiting the said channel and the second outlet port receives the particle in a second portion of the suspension exiting the channel.

Abstract: In a capillary electrophoresis apparatus, a capillary array unit has a capillary array including capillaries having a capillary head and a detection unit, a frame for supporting the capillary array, and a load header for holding cathode ends of the capillaries. The frame has separators for separating and holding the capillaries. The capillary head, the detection unit, and the separators are disposed along one linear line. With this arrangement, there is provided the capillary array unit and the capillary electrophoresis apparatus which are arranged such that a job for mounting the capillary array can be executed easily.

Abstract: A microfluidic network provides active control of characteristics of at least one micro-droplet. The microfluidic network includes at least one junction of at least one first channel and at least one second channel; and an electrically controlled actuator at or adjacent the junction to induce a change in the characteristics of the at least one micro-droplet. A corresponding method employs an electrically controlled actuator at or adjacent a junction to induce a change in the characteristics of a micro-droplet.

Abstract: A microfluidic structure comprising a thermoplastic portion defining a microfluidic recess, a bonding layer on the thermoplastic portion and a siloxane elastomer portion covalently bonded to the bonding layer to seal the microfluidic recess. The microfluidic recess can therefore be formed simply, quickly and cheaply using known injection molding techniques, which are not hampered by the need for a curing step. However, the positive qualities associated with elastomers can be brought to the structure by using this to seal the microchannels. The bonding layer can be formed by silica deposited on the thermoplastic portion using techniques known in the field of optics.

Abstract: A heat transfer system comprising a primary heat exchanger for receiving heat from a heat source; a secondary heat exchanger for exhausting heat to a heat sink; a conduit connecting the primary heat exchanger and the secondary heat exchanger; and an electrokinetic pump for pumping a heat exchange fluid between the primary heat exchanger and the secondary heat exchanger through the conduit.

Abstract: Low molecular weight serum components (less than 10,000 m.w.), in vaccinated animals and a human subject who has been exposed to a threat agent inadvertently, bound to purified O-polysaccharide (OPS, a polymer of formamido-mannose) and a candidate of a threat agent, such as Brucella suis 145 vaccine is disclosed. These components formed a loose reversible precipitin with OPS in a high-salt borate-buffered agarose gel and bound to the candidate vaccine as observed by capillary electrophoresis. By using modified capillary electrophoresis, the invention also discloses the presence of two larger serum components, one similar in size to that of serum albumin and one resembles that of mannan-binding lectin, that bound to the vaccine. An indirect method for identifying vaccination is the presence of antibodies against Brucella-OPS-antibodies. ELISA, capillary electrophoresis and animal challenge studies showed that as high as 30% of the control animals did not require vaccination.

Abstract: Embodiments of the invention provide devices and methods for extracting nucleic acid molecules from solution using electric fields. The structures and methods of embodiments of the invention are suited to incorporation into micro and nano fluidic devices, such as lab-on-a-chip devices and micro total analysis systems.

Abstract: An electrophoresis chip is provided with a channel that is filled with a solution in which a sample is dissolved, the electrophoresis chip being configured to carry out electrophoresis by applying voltage along the channel in a state in which the channel is hermetically sealed to separate the sample in the channel, and after this electrophoresis is performed, to carry out mass spectrometry by scanning a laser along the channel in a state in which the channel is open to an environment in which gas is present. A pattern is formed on the bottom surface of the channel to hold the solution as droplets. This pattern is made into a pattern in which hydrophilic areas are surrounded by hydrophobic areas and side-walls of the channel.

Abstract: At a wall constituting a space for a thermostatic oven in an electrophoresis apparatus, a capillary array attachment portion is formed which permits attachment of a plurality of capillary arrays having different length. Thereby, a selected capillary array constituted by collecting a plurality of capillaries can be easily attached to the electrophoresis apparatus depending on measurement purpose.

Abstract: The troublesomeness during the setting of a plurality of capillaries is eliminated by composing pairs of electrodes, which are electrically connected to the common electrode, and capillaries. By bringing electrodes installed in the vicinity of each capillary disposed at the pitch of wells on the side of sample plate (within the area of the wells) into electrical contact with a common electrode, the capillaries and electrodes are made integral in construction. When a voltage is applied to the electrophoretic instrument via a common electrode portion, the voltage is applied to the electrodes for each capillary. This enables an inexpensive microtiter plate, etc. to be used and a multiple of capillaries to be simultaneously inserted, attached and detached.

Abstract: The present invention relates to a method of classifying charged molecules such as proteins for quantitative analysis. An analyte solution of the molecules is subjected to separational forces may be fluid drag and electrophoretic force in opposition. The analyte solution may be subjected to a two-phase process. The two-phase process may add both electrophoretic force based upon molecule charge, and differential mobility resistance based upon molecule mass and/or size.

Abstract: A multi-channel capillary electrophoresis microchip for analysis of multiple samples comprising: at least two sample reservoirs, at least two sample channels corresponding to said sample reservoirs, a sample buffer reservoir, a sample waste reservoir, a separation buffer reservoir, a separation waste reservoir, a sample loading channel, and a separation channel, wherein each of said sample channels is connected at one end to said sample loading channel at a place between said sample buffer reservoir and said intersection of said sample loading channel and said separation channel, and the other end of each of said sample channels is connected to each of said sample reservoirs. A method of capillary electrophoresis separation for sequentially analysis of multiple samples.

Abstract: A multiplexed, absorbance-based electrophoresis system for analyzing multiple samples simultaneously without use of a mask or slit comprising a light source, a planar array of capillary tubes and a detector positioned off-axis with the light source and positioned on-axis with and parallel to the planar array of capillary tubes. Another embodiment includes a vent valve directly attached to the reservoir manifold for venting pressure from the reservoir. Other embodiments include vacuum attached to the capillary tubes to increase the speed of detection.

Abstract: Capillary columns (102) pass through and are inserted in a rubber plate (14), held and fixed by elastic force of rubber, and two-dimensionally arranged on a sample injection side. it fixes the capillary columns (102) arranged on a plane in close contact by holding the same with a holder plate (6a) from below and with a rubber plate (16) from above on a detection side. In order to press the capillary columns (102) against the holder plate 6a and fix the same with the rubber plate (16), a holder plate (6b) fixing the rubber plate (16) to the holder plate (6a) on both sides of the arrangement of the capillary columns (102) is provided.

Abstract: The present invention provides a capillary electrophoresis chip apparatus for detecting nucleotide polymorphism or single nucleotide polymorphism belonging to capillary electrophoresis apparatuses. The apparatus comprises an upper channel layer comprising a one-, two-, or multi-dimensional microfluid channel and an electrode aperture structure for loading sample, a middle electrode layer for sealing the microfluid channel to form an intact capillary and providing the needed voltage for electrophoresis; and a lower heating layer for providing a stable temperature gradient for electrophoresis. The upper, middle and lower layers are thermal conductive and adhesive to each other.

Abstract: To monitor functions in a micro-fluidic system having mutually similar parallel fluid paths, sensors (7) are assigned to the individual fluid paths (5) at the same respective locations, in order to measure a physical parameter that is influenced by the fluid stream in the fluid paths (5). The sensors (7) are connected to an evaluation device (10), which diagnoses a change in the operating state of the micro-fluidic system based on the differences in the parameters measured by the sensors (7).

Abstract: Embodiments of the present invention may provide a microchip applicable to an electrophoresis employing UV detection and a method of manufacturing the same. The microchip of the present invention has a glass channel plate, which is formed on an upper surface thereof with a loading channel and a separation channel and is provided on the upper surface thereof with an optical slit layer made of silicon except the channel region, and a glass reservoir plate, which is formed with sample solution reservoirs and buffer solution reservoirs. The loading channel and the separation channel are formed on the channel plate by deep reactive ion etching. The sample solution reservoirs and the buffer solution reservoirs are formed in the reservoir plate by sand blasting. The channel plate and the reservoir plate are combined by anodic bonding the optical slit layer and the reservoir plate. Electrodes for sample and electrodes for buffer are deposited by sputtering Pt with a shadow mask after anodic bonding.

Abstract: Embodiments of the present invention employ complexly shaped, high-surface-area channels for separation and purification of molecules, including important biopolymers such as proteins, glycoproteins, polysaccharides, and other molecular components of living cells. The relatively large internal surface areas of the complexly shaped channels employed in embodiments of the present invention provide, in comparison to traditional, simply shaped separation channels, increased heat dissipation during electrokinetic separation, and a decreased tendency for bulk-solution flow. Heat dissipation prevents high temperatures that can denature proteins and that can induce thermal currents within the separation channel. Bulk-solution flow within a separation channel can overwhelm the generally linear, electrical-potential-induced migration of molecules that leads to efficient and well-resolved molecular separations.

Abstract: When irradiating laser beam from the side face of the capillary array, an optical axis of the laser beam is inclined in vertical direction with respect to a plane face formed by the capillary array, thus, reflection light by the capillary array and returning light is prevented from entering into a laser beam source, thereby, instability of laser oscillation is eliminated.

Abstract: The present invention provides an on-chip packed reactor bed design that allows for an effective exchange of packing materials such as beads at a miniaturized level. The present invention extends the function of microfluidic analysis systems to new applications including on-chip solid phase extraction (SPE) and on-chip capillary electrochromatography (CEC). The design can be further extended to include integrated packed bed immuno- or enzyme reactors.