Patents by Inventor Gaetan L. Mathieu
Gaetan L. Mathieu has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Publication number: 20240027396Abstract: Individual biological micro-objects can be deterministically selected and moved into holding pens in a micro-fluidic device. A flow of a first liquid medium can be provided to the pens. Physical pens can be structured to impede a direct flow of the first medium into a second medium in the pens while allowing diffusive mixing of the first medium and the second medium. Virtual pens can allow a common flow of medium to multiple ones of the pens.Type: ApplicationFiled: May 25, 2023Publication date: January 25, 2024Inventors: Kevin T. Chapman, Igor Y. Khandros, Gaetan L. Mathieu, J. Tanner Nevill, Ming C. Wu
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Patent number: 10800652Abstract: A group of micro-objects in a holding pen in a micro-fluidic device can be selected and moved to a staging area, from which the micro-objects can be exported from the micro-fluidic device. The micro-fluidic device can have a plurality of holding pens, and each holding pen can isolate micro-objects located in the holding pen from micro-objects located in the other holding pens or elsewhere in the micro-fluidic device. The selected group of micro-objects can comprise one or more biological cells, such as a clonal population of cells. Embodiments of the invention can thus select a particular group of clonal cells in a micro-fluidic device, move the clonal cells to a staging area, and export the clonal cells from the micro-fluidic device while maintaining the clonal nature of the exported group.Type: GrantFiled: September 6, 2018Date of Patent: October 13, 2020Assignee: Berkeley Lights, Inc.Inventors: Keith J. Breinlinger, Daniele Malleo, Gaetan L. Mathieu, J. Tanner Nevill, Alexander H. Slocum, Mark P. White
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Publication number: 20200284756Abstract: Individual biological micro-objects can be deterministically selected and moved into holding pens in a micro-fluidic device. A flow of a first liquid medium can be provided to the pens. Physical pens can be structured to impede a direct flow of the first medium into a second medium in the pens while allowing diffusive mixing of the first medium and the second medium. Virtual pens can allow a common flow of medium to multiple ones of the pens.Type: ApplicationFiled: May 7, 2020Publication date: September 10, 2020Inventors: Kevin T. Chapman, Igor Y. Khandros, Gaetan L. Mathieu, J. Tanner Nevill, Ming C. Wu
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Patent number: 10690628Abstract: Individual biological micro-objects can be deterministically selected and moved into holding pens in a micro-fluidic device. A flow of a first liquid medium can be provided to the pens. Physical pens can be structured to impede a direct flow of the first medium into a second medium in the pens while allowing diffusive mixing of the first medium and the second medium. Virtual pens can allow a common flow of medium to multiple ones of the pens.Type: GrantFiled: December 14, 2017Date of Patent: June 23, 2020Assignee: Berkeley Lights, IncInventors: Kevin T. Chapman, Igor Y. Khandros, Gaetan L. Mathieu, J. Tanner Nevill, Ming C. Wu
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Patent number: 10569271Abstract: Single-sided optoelectrowetting (SSOEW)-configured substrates are provided, as well as microfluidic devices that include such substrates. The substrates can include a planar electrode, a photoconductive (or photosensitive) layer, a dielectric layer (single-layer or composite), a mesh electrode, and a hydrophobic coating. Fluid droplets can be moved across the hydrophobic coating of such substrates in a light-actuated manner, upon the application of a suitable AC voltage potential across the substrate and the focusing of light into the photoconductive layer of the substrate in a location proximal to the droplets. Walls can be disposed upon the substrates to form the microfluidic devices. Together the walls and substrate can form a microfluidic circuit, through which droplets can be moved.Type: GrantFiled: October 17, 2017Date of Patent: February 25, 2020Assignees: THE REGENTS OF THE UNIVERSITY OF CALIFORNIA, BERKELEY LIGHTS, INC.Inventors: Ming-Chiang Wu, Jodi Tsu-An Loo, Shao Ning Pei, Gaetan L. Mathieu, Jian Gong, Randall D. Lowe, Jr., Justin K. Valley
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Publication number: 20190152771Abstract: A group of micro-objects in a holding pen in a micro-fluidic device can be selected and moved to a staging area, from which the micro-objects can be exported from the micro-fluidic device. The micro-fluidic device can have a plurality of holding pens, and each holding pen can isolate micro-objects located in the holding pen from micro-objects located in the other holding pens or elsewhere in the micro-fluidic device. The selected group of micro-objects can comprise one or more biological cells, such as a clonal population of cells. Embodiments of the invention can thus select a particular group of clonal cells in a micro-fluidic device, move the clonal cells to a staging area, and export the clonal cells from the micro-fluidic device while maintaining the clonal nature of the exported group.Type: ApplicationFiled: September 6, 2018Publication date: May 23, 2019Inventors: Keith J. Breinlinger, Daniele Malleo, Gaetan L. Mathieu, J. Tanner Nevill, Alexander H. Slocum, Mark P. White
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Patent number: 10252907Abstract: A group of micro-objects in a holding pen in a micro-fluidic device can be selected and moved to a staging area, from which the micro-objects can be exported from the micro-fluidic device. The micro-fluidic device can have a plurality of holding pens, and each holding pen can isolate micro-objects located in the holding pen from micro-objects located in the other holding pens or elsewhere in the micro-fluidic device. The selected group of micro-objects can comprise one or more biological cells, such as a clonal population of cells. Embodiments of the invention can thus select a particular group of clonal cells in a micro-fluidic device, move the clonal cells to a staging area, and export the clonal cells from the micro-fluidic device while maintaining the clonal nature of the exported group.Type: GrantFiled: February 22, 2017Date of Patent: April 9, 2019Assignee: Berkeley Lights, Inc.Inventors: Keith J. Breinlinger, Daniele Malleo, Gaetan L. Mathieu, J. Tanner Nevill, Alexander H. Slocum, Mark P. White
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Publication number: 20180259482Abstract: Individual biological micro-objects can be deterministically selected and moved into holding pens in a micro-fluidic device. A flow of a first liquid medium can be provided to the pens. Physical pens can be structured to impede a direct flow of the first medium into a second medium in the pens while allowing diffusive mixing of the first medium and the second medium. Virtual pens can allow a common flow of medium to multiple ones of the pens.Type: ApplicationFiled: December 14, 2017Publication date: September 13, 2018Inventors: Kevin T. Chapman, Igor Y. Khandros, Gaetan L. Mathieu, J. Tanner Nevill, Ming C. Wu
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Publication number: 20180099275Abstract: Single-sided optoelectrowetting (SSOEW)-configured substrates are provided, as well as microfluidic devices that include such substrates. The substrates can include a planar electrode, a photoconductive (or photosensitive) layer, a dielectric layer (single-layer or composite), a mesh electrode, and a hydrophobic coating. Fluid droplets can be moved across the hydrophobic coating of such substrates in a light-actuated manner, upon the application of a suitable AC voltage potential across the substrate and the focusing of light into the photoconductive layer of the substrate in a location proximal to the droplets. Walls can be disposed upon the substrates to form the microfluidic devices. Together the walls and substrate can form a microfluidic circuit, through which droplets can be moved.Type: ApplicationFiled: October 17, 2017Publication date: April 12, 2018Applicants: THE REGENTS OF THE UNIVERSITY OF CALIFORNIA, BERKELEY LIGHTS, INC.Inventors: Ming-Chiang Wu, Jodi Tsu-An Loo, Shao Ning Pei, Gaetan L. Mathieu, Jian Gong, Randall D. Lowe, JR., Justin K. Valley
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Patent number: 9857333Abstract: Individual biological micro-objects can be deterministically selected and moved into holding pens in a micro-fluidic device. A flow of a first liquid medium can be provided to the pens. Physical pens can be structured to impede a direct flow of the first medium into a second medium in the pens while allowing diffusive mixing of the first medium and the second medium. Virtual pens can allow a common flow of medium to multiple ones of the pens.Type: GrantFiled: October 22, 2013Date of Patent: January 2, 2018Assignee: Berkeley Lights, Inc.Inventors: Kevin T. Chapman, Igor Y. Khandros, Gaetan L. Mathieu, J. Tanner Nevill, Ming C. Wu
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Publication number: 20170355595Abstract: A group of micro-objects in a holding pen in a micro-fluidic device can be selected and moved to a staging area, from which the micro-objects can be exported from the micro-fluidic device. The micro-fluidic device can have a plurality of holding pens, and each holding pen can isolate micro-objects located in the holding pen from micro-objects located in the other holding pens or elsewhere in the micro-fluidic device. The selected group of micro-objects can comprise one or more biological cells, such as a clonal population of cells. Embodiments of the invention can thus select a particular group of clonal cells in a micro-fluidic device, move the clonal cells to a staging area, and export the clonal cells from the micro-fluidic device while maintaining the clonal nature of the exported group.Type: ApplicationFiled: February 22, 2017Publication date: December 14, 2017Inventors: Keith J. Breinlinger, Daniele Malleo, Gaetan L. Mathieu, J. Tanner Nevill, Alexander H. Slocum, Mark P. White
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Patent number: 9815056Abstract: Single-sided optoelectrowetting (SSOEW)-configured substrates are provided, as well as microfluidic devices that include such substrates. The substrates can include a planar electrode, a photoconductive (or photosensitive) layer, a dielectric layer (single-layer or composite), a mesh electrode, and a hydrophobic coating. Fluid droplets can be moved across the hydrophobic coating of such substrates in a light-actuated manner, upon the application of a suitable AC voltage potential across the substrate and the focusing of light into the photoconductive layer of the substrate in a location proximal to the droplets. Walls can be disposed upon the substrates to form the microfluidic devices. Together the walls and substrate can form a microfluidic circuit, through which droplets can be moved.Type: GrantFiled: December 4, 2015Date of Patent: November 14, 2017Assignees: THE REGENTS OF THE UNIVERSITY OF CALIFORNIA, BERKELEY LIGHTS, INC.Inventors: Ming-Chiang Wu, Jodi Tsu-An Loo, Shao Ning Pei, Gaetan L. Mathieu, Jian Gong, Randall D. Lowe, Jr., Justin K. Valley
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Publication number: 20170113231Abstract: A group of micro-objects in a holding pen in a micro-fluidic device can be selected and moved to a staging area, from which the micro-objects can be exported from the micro-fluidic device. The micro-fluidic device can have a plurality of holding pens, and each holding pen can isolate micro-objects located in the holding pen from micro-objects located in the other holding pens or elsewhere in the micro-fluidic device. The selected group of micro-objects can comprise one or more biological cells, such as a clonal population of cells. Embodiments of the invention can thus select a particular group of clonal cells in a micro-fluidic device, move the clonal cells to a staging area, and export the clonal cells from the micro-fluidic device while maintaining the clonal nature of the exported group.Type: ApplicationFiled: October 22, 2014Publication date: April 27, 2017Inventors: Keith J. Breinlinger, Daniele Malleo, Gaetan L. Mathieu, J. Tanner Nevill, Alexander H. Slocum, Mark P. White
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Patent number: 9617145Abstract: A group of micro-objects in a holding pen in a micro-fluidic device can be selected and moved to a staging area, from which the micro-objects can be exported from the micro-fluidic device. The micro-fluidic device can have a plurality of holding pens, and each holding pen can isolate micro-objects located in the holding pen from micro-objects located in the other holding pens or elsewhere in the micro-fluidic device. The selected group of micro-objects can comprise one or more biological cells, such as a clonal population of cells. Embodiments of the invention can thus select a particular group of clonal cells in a micro-fluidic device, move the clonal cells to a staging area, and export the clonal cells from the micro-fluidic device while maintaining the clonal nature of the exported group.Type: GrantFiled: October 22, 2014Date of Patent: April 11, 2017Assignee: Berkeley Lights, Inc.Inventors: Keith J. Breinlinger, Daniele Malleo, Gaetan L. Mathieu, J. Tanner Nevill, Alexander H. Slocum, Mark P. White
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Publication number: 20160158748Abstract: Single-sided optoelectrowetting (SSOEW)-configured substrates are provided, as well as microfluidic devices that include such substrates. The substrates can include a planar electrode, a photoconductive (or photosensitive) layer, a dielectric layer (single-layer or composite), a mesh electrode, and a hydrophobic coating. Fluid droplets can be moved across the hydrophobic coating of such substrates in a light-actuated manner, upon the application of a suitable AC voltage potential across the substrate and the focusing of light into the photoconductive layer of the substrate in a location proximal to the droplets. Walls can be disposed upon the substrates to form the microfluidic devices. Together the walls and substrate can form a microfluidic circuit, through which droplets can be moved.Type: ApplicationFiled: December 4, 2015Publication date: June 9, 2016Applicants: THE REGENTS OF THE UNIVERSITY OF CALIFORNIA, BERKELEY LIGHTS, INC.Inventors: Ming-Chiang Wu, Jodi Tsu-An Loo, Shao Ning Pei, Gaetan L. Mathieu, Jian Gong, Randall D. Lowe, JR., Justin K. Valley
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Publication number: 20150151307Abstract: A group of micro-objects in a holding pen in a micro-fluidic device can be selected and moved to a staging area, from which the micro-objects can be exported from the micro-fluidic device. The micro-fluidic device can have a plurality of holding pens, and each holding pen can isolate micro-objects located in the holding pen from micro-objects located in the other holding pens or elsewhere in the micro-fluidic device. The selected group of micro-objects can comprise one or more biological cells, such as a clonal population of cells. Embodiments of the invention can thus select a particular group of clonal cells in a micro-fluidic device, move the clonal cells to a staging area, and export the clonal cells from the micro-fluidic device while maintaining the clonal nature of the exported group.Type: ApplicationFiled: October 22, 2014Publication date: June 4, 2015Inventors: Keith J. Breinlinger, Daniele Malleo, Gaetan L. Mathieu, J. Tanner Nevill, Alexander H. Slocum, Mark P. White
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Patent number: 9030222Abstract: An apparatus and method providing improved interconnection elements and tip structures for effecting pressure connections between terminals of electronic components is described. The tip structure of the present invention has a sharpened blade oriented on the upper surface of the tip structure such that the length of the blade is substantially parallel to the direction of horizontal movement of the tip structure as the tip structure deflects across the terminal of an electronic component. In this manner, the sharpened substantially parallel oriented blade slices cleanly through any non-conductive layer(s) on the surface of the terminal and provides a reliable electrical connection between the interconnection element and the terminal of the electrical component.Type: GrantFiled: August 6, 2010Date of Patent: May 12, 2015Assignee: FormFactor, Inc.Inventors: Benjamin N. Eldridge, Gary W. Grube, Igor Y. Khandros, Alex Madsen, Gaetan L. Mathieu
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Publication number: 20140116881Abstract: Individual biological micro-objects can be deterministically selected and moved into holding pens in a micro-fluidic device. A flow of a first liquid medium can be provided to the pens. Physical pens can be structured to impede a direct flow of the first medium into a second medium in the pens while allowing diffusive mixing of the first medium and the second medium. Virtual pens can allow a common flow of medium to multiple ones of the pens.Type: ApplicationFiled: October 22, 2013Publication date: May 1, 2014Applicant: Berkeley Lights, Inc.Inventors: Kevin T. Chapman, Igor Y. Khandros, Gaetan L. Mathieu, J. Tanner Nevill, Ming C. Wu
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Publication number: 20140017791Abstract: Two or more biological micro-objects can be grouped in a liquid medium in a chamber. Grouping can comprise bringing into and holding in proximity or contact the micro-objects in a group, breaching the membrane of one or more of the micro-objects in a group, subjecting one or more of the micro-objects in a group to electroporation, and/or tethering to each other the micro-objects in a group. The micro-objects in the group can then be combined into a single biological object.Type: ApplicationFiled: July 12, 2013Publication date: January 16, 2014Inventors: Kevin T. Chapman, Igor Y. Khandros, Gaetan L. Mathieu, Steven W. Short, Ming C. Wu
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Publication number: 20130319861Abstract: A micro-fluidic device can include a processing mechanism for processing micro-objects in a liquid medium and an outputting mechanism for expressing from the device a droplet of the medium containing one or more of the micro-objects. The outputting mechanism can include an expressing mechanism having a reservoir for holding a quantity of the liquid medium and a striking mechanism for striking and compressing the expressing mechanism to express a droplet of the medium from the expressing mechanism.Type: ApplicationFiled: April 4, 2013Publication date: December 5, 2013Applicant: Berkeley Lights, Inc.Inventors: Igor Y. Khandros, Gaetan L. Mathieu, J. Tanner Nevill, Ming C. Wu