Abstract: The present invention generally provides a micropump that utilizes electroosmotic pumping of fluid in one channel or region to generate a pressure based flow of material in a connected channel, where the connected channel has substantially no electroosmotic flow generated. Such pumps have a variety of applications, and are particularly useful in those situations where the application for which the pump is to be used prohibits the application of electric fields to the channel in which fluid flow is desired, or where pressure based flow is particularly desirable.
Abstract: Method of fabricating microstructures on a substrate. The method comprises providing a substrate layer having a first surface with a resist layer. First selected regions of the resist layer are exposed to an environment that renders the resist layer more or less soluble in a developer solution. The resist layer is then developed in the developer solution to expose selected regions of the substrate surface. Second selected regions of the resist layer are then exposed to an environment that renders the resist layer more or less soluble in the developer solution by aligning exposure of the second selected regions to the first selected regions. The first selected regions of the substrate surface are etched. Second selected regions of the resist layer are then developed to expose the second selected regions of the substrate surface.
Abstract: Microfluidic devices are provided for the performance of chemical and biochemical analyses, syntheses and detection. The devices of the invention combine precise fluidic control systems with microfabricated polymeric substrates to provide accurate, low cost miniaturized analytical devices that have broad applications in the fields of chemistry, biochemistry, biotechnology, molecular biology and numerous other fields.
Type:
Application
Filed:
December 10, 2002
Publication date:
May 15, 2003
Applicant:
Caliper Technologies Corp.
Inventors:
John Wallace Parce, Michael R. Knapp, Calvin Y.H. Chow, Luc J. Bousse
Abstract: Integrated systems, apparatus, software, and methods for performing biochemical analysis, including DNA sequencing, genomic screening, purification of nucleic acids and other biological components and drug screening are provided. Microfluidic devices, systems and methods for using these devices and systems for performing a wide variety of fluid operations are provided. The devices and systems of are used in performing fluid operations which require a large number of iterative, successive or parallel fluid manipulations, in a microscale, or sealed and readily automated format.
Type:
Application
Filed:
November 22, 2002
Publication date:
May 8, 2003
Applicant:
Caliper Technologies Corp.
Inventors:
Michael Knapp, John Wallace Parce, Luc J. Bousse, Anne R. Kopf-Sill
Abstract: A channel (140) is divised into portions (142, 144). The sidewalls of each channel portion (142, 144) have surface charges of opposite polarity. The two channel portions (142, 144) are physically connected together by a salt bridge (133), such as a glass frit or gel layer. The salt bridge (133) separates the fluids in channel (140) from an ionic fluid reservoir (135). To impart electroosmotic and electrophoretic forces along the channel (140) between parts A and B, respectively. Additionally, a third electrode (137) is placed in the reservoir (135).
Abstract: The present invention provides novel microfluidic devices and methods that are useful for performing high-throughput screening assays. In particular, the devices and methods of the invention are useful in screening large numbers of different compounds for their effects on a variety of chemical, and preferably, biochemical systems.
Type:
Grant
Filed:
July 1, 1999
Date of Patent:
May 6, 2003
Assignee:
Caliper Technologies Corp.
Inventors:
John Wallace Parce, Anne R. Kopf-Sill, Luc J. Bousse
Abstract: The present invention provides novel microfluidic devices and methods that are useful for performing high-throughput screening assays. In particular, the devices and methods of the invention are useful in screening large numbers of different compounds for their effects on a variety of chemical, and preferably, biochemical systems.
Type:
Grant
Filed:
November 21, 2000
Date of Patent:
May 6, 2003
Assignee:
Caliper Technologies Corp.
Inventors:
J. Wallace Parce, Anne R. Kopf-Sill, Luc J. Bousse
Abstract: The present invention generally provides improved methods of fabricating polymeric microfluidic devices that incorporate microscale fluidic structures, whereby the fabrication process does not substantially distort or deform such structures. The methods of the invention generally provide enhanced bonding processes for mating and bonding substrate layers to define the microscale channel networks therebetween.
Type:
Grant
Filed:
June 7, 2000
Date of Patent:
April 29, 2003
Assignee:
Caliper Technologies Corp.
Inventors:
Khushroo Gandhi, Robert S. Dubrow, Luc J. Bousse
Abstract: Techniques for analyzing an array of compounds utilizing a high throughput microfluidic system are provided. The system can translate a plurality of multiwell plates through various stations for analysis. Effects to sample compounds can be identified according to deviations in a steady state signal. Also, a user can enter the dwell times for sample compounds and a buffer solution so that the system will alternatingly inject the sample compounds and buffer solution into a microfluidic device according to the specified dwell times.
Abstract: The present invention provides novel microfluidic devices and methods that are useful for performing high-throughput screening assays. In particular, the devices and methods of the invention are useful in screening large numbers of different compounds for their effects on a variety of chemical, and preferably, biochemical systems.
Type:
Application
Filed:
August 27, 2002
Publication date:
April 24, 2003
Applicant:
Caliper Technologies Corporation
Inventors:
John Wallace Parce, Anne R. Kopf-Sill, Luc J. Bousse
Abstract: Microfluidic devices for performing integrated reaction and separation operations. The devices have a planar substrate having a first surface with an integrated channel network disposed therein. The reaction region in the integrated microscale channel network has a mixture of at least first and second reactants located therein, wherein the mixture interacts to produce one or more products. The reaction region is configured to maintain contact between the first and second reactants contained within it. The device also includes a separation region in the integrated channel network, where the separation region is configured to separate the first reactant from the product, when the first reactant and product are flowing through the separation region.
Type:
Grant
Filed:
November 15, 1999
Date of Patent:
April 22, 2003
Assignee:
Caliper Technologies Corp.
Inventors:
Andrea W. Chow, Anne R. Kopf-Sill, J. Wallace Parce, Steven A. Sundberg
Abstract: The present invention provides for techniques for transporting materials using electrokinetic forces through the channels of a microfluidic system. The subject materials are transported in regions of high ionic concentration, next to spacer material regions of high ionic concentration, which are separated by spacer material regions of low ionic concentration. Such arrangements allow the materials to remain localized for the transport transit time to avoid mixing of the materials. Using these techniques, an electropipettor which is compatible with the microfluidic system is created so that materials can be easily introduced into the microfluidic system. The present invention also compensates for electrophoretic bias as materials are transported through the channels of the microfluidic system by splitting a channel into portions with positive and negative surface charges and a third electrode between the two portions, or by diffusion of the electrophoresing materials after transport along a channel.
Abstract: Analytical systems and methods that use a modular interface structure for providing an interface between a sample substrate and an analytical unit, where the analytical unit typically has a particular interface arrangement for implementing various analytical and control functions. Using a number of variants for each module of the modular interface structure advantageously provides cost effective and efficient ways to perform numerous tests using a particular substrate or class of substrates with a particular analytical and control systems interface arrangement. Improved optical illumination and detection system for simultaneously analyzing reactions or conditions in multiple parallel microchannels are also provided.
Type:
Grant
Filed:
July 31, 2001
Date of Patent:
April 15, 2003
Assignee:
Caliper Technologies Corp.
Inventors:
Anne R. Kopf-Sill, Andrea W. Chow, Peter C. Jann, Morten J. Jensen, Michael Spaid, Colin B. Kennedy, Michael J. Kennedy
Abstract: Enzyme assays are performed in microfluidic devices including, e.g., in-line labeling, separation, and detection of assay products. In-line labeling allows assays, e.g., protease assays, to be performed in a continuous flow microfluidic format. Also included are microfluidic devices and integrated systems for performing in-line labeling in continuous flow enzyme assays.
Abstract: Microfluidic devices and systems for affecting the serial to parallel conversion of materials introduced into the device or system. Material or materials to be converted from a serial orientation, e.g., a single channel, into a parallel orientation, e.g., multiple channels, are introduced into an open chamber or field in which containing flows of materials maintain the cohesiveness of the sample material plugs serially introduced into the open chamber. The sample material or materials are then redirected in the chamber toward and into a plurality of parallel channels that also communicate with the chamber.
Abstract: Reactor systems that include a reaction receptacle that includes a plurality of reservoirs disposed in the surface of a substrate. The reactor system also typically includes a temperature control element having at least a first heat exchanger thermally coupled to it. The heat exchanger is, in turn, disposed within the at least one of the reservoirs whereby the heat exchanger transfers heat to or from a fluid disposed within the reservoir, which heat is conducted to or from the temperature control element.
Abstract: Methods of concentrating materials within microfluidic channel networks by moving materials into regions in which overall velocities of the material are reduced, resulting in stacking of the material within those reduced velocity regions. These methods, devices and systems employ static fluid interfaces to generate the differential velocities, as well as counter-current flow methods, to concentrate materials within microscale channels.
Type:
Application
Filed:
July 26, 2002
Publication date:
March 27, 2003
Applicant:
Caliper Technologies Corp.
Inventors:
Ring-Ling Chien, Benjamin N. Wang, Persefoni Kechagia
Abstract: Transmembrane potential measurement methods using cationic dyes, and anionic dyes are provided. Compositions of the cationic and anionic dyes and microfluidic systems which include the dyes and membranes are provided in conjunction with processing elements for transmembrane potential measurements.
Abstract: A novel method and device for transporting and/or monitoring a fluid in a multi-port device 400, 800, 1000 used in a microfluidic system is provided. The multi-port device includes a substrate having a novel channel configuration. A first channel region 413 having a first port and a second port for transporting fluid therebetween is defined in the substrate. A second channel region 421 having a first port and a second port for applying electric current for heating fluid or for monitoring a fluid parameter therebetween is also defined in the substrate. In some embodiments, the first channel intersects 407 with the second channel. The heating or monitoring aspect of the invention can be used with a variety of biological reactions such as PCR, LCR, and others.
Type:
Grant
Filed:
April 21, 1999
Date of Patent:
March 25, 2003
Assignee:
Caliper Technologies Corp.
Inventors:
Calvin Y. H. Chow, Anne R. Kopf-Sill, J. Wallace Parce