Microfabricated structures for facilitating fluid introduction into microfluidic devices
First Claim
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1. A microfluidic system comprising:
- a substrate having a first surface and a second surface; and
a plurality of through-hole ports extending through said substrate, each of said plurality of through-hole ports having a first open end at said first surface, a second open end at said second surface, said plurality of through-hole ports being sized to retain a fluid therein by capillary action; and
a mechanism to transport said fluid from said plurality of through-hole ports to outside said substrate, said mechanism comprises an upwardly extending member extending toward at least one of said plurality of though-hole ports and contacting said fluid to promote decanting of the fluid from said one of said plurality of through-hole ports.
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Abstract
Fluid introduction is facilitated through the use of a port which extends entirely through a microfluidic substrate. Capillary forces can be used to retain the fluid within the port, and a series of samples or other fluids may be introduced through a single port by sequentially blowing the fluid out through the substrate and replacing the removed fluid with an alternate fluid, or by displacing the fluid in part with additional fluid. In another aspect, microfluidic substrates have channels which varying in cross-sectional dimension so that capillary action spreads a fluid only within a limited portion of the channel network. In yet another aspect, the introduction ports may include a multiplicity of very small channels leading from the port to a fluid channel, so as to filter out particles or other contaminants which might otherwise block the channel at the junction between the channel and the introduction port.
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Citations
19 Claims
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1. A microfluidic system comprising:
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a substrate having a first surface and a second surface; and a plurality of through-hole ports extending through said substrate, each of said plurality of through-hole ports having a first open end at said first surface, a second open end at said second surface, said plurality of through-hole ports being sized to retain a fluid therein by capillary action; and a mechanism to transport said fluid from said plurality of through-hole ports to outside said substrate, said mechanism comprises an upwardly extending member extending toward at least one of said plurality of though-hole ports and contacting said fluid to promote decanting of the fluid from said one of said plurality of through-hole ports. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A microfluidic system comprising:
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a substrate having a first surface and a second surface; a plurality of through-hole ports extending through said substrate, each of said plurality of through-hole ports having a first open end at said first surface, a second open end at said second surface, said plurality of through-hole ports being sized to retain a fluid therein; a downwardly extending member transporting said fluid to said plurality of through-hole ports; and a mechanism to transport said fluid from said plurality of through-hole ports to outside said substrate;
said mechanism comprises an upwardly extending member extending toward at least one of said plurality of though-hole ports and contacting said fluid to promote decanting of the fluid from said one of said plurality of through-hole ports. - View Dependent Claims (8, 9, 10, 11, 12, 13)
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14. A microfluidic system comprising:
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a substrate having a first surface and a second surface; and a plurality of through-hole ports extending through said substrate, each of said plurality of through-hole ports having a first open end at said first surface, a second open end at said second surface; and a downwardly extending member transporting a fluid to said plurality of through-hole ports, said downwardly extending member being hydrophilic, wherein said downwardly extending member transports said fluid to said plurality of through-hole ports in response to capillary force when said downwardly extending member is brought into sufficient proximity to said plurality of ports. - View Dependent Claims (15, 16, 17, 18, 19)
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Specification
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Current AssigneeCalvin Y.H. Chow, Parce J. Wallace, Steven A. Sundberg
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Original AssigneeCalvin Y.H. Chow, Parce J. Wallace, Steven A. Sundberg
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InventorsParce, J. Wallace, Chow, Calvin Y. H., Sundberg, Steven A.
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Primary Examiner(s)WALLENHORST, MAUREEN
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Application NumberUS11/617,799Publication NumberTime in Patent Office487 DaysField of Search422/99, 422/100, 422/102, 436/174, 436/180US Class Current422/503CPC Class CodesB01J 19/0093 Microreactors, e.g. miniatu...B01J 2219/00783 Laminate assemblies, i.e. t...B01J 2219/00826 QuartzB01J 2219/00831 GlassB01J 2219/00833 PlasticB01J 2219/00853 Employing electrode arrange...B01J 2219/00891 Feeding or evacuationB01J 2219/00909 using filtersB01L 2200/027 for microfluidic devicesB01L 2300/0681 FilterB01L 2300/0816 Cards, e.g. flat sample car...B01L 2300/0819 Microarrays; BiochipsB01L 2300/0864 comprising only one inlet a...B01L 2400/0406 capillary forcesB01L 2400/0418 electro-osmotic flow [EOF]B01L 2400/0421 electrophoretic flowB01L 2400/0487 fluid pressure, pneumaticsB01L 2400/0688 surface tension valves, cap...B01L 3/0244 using pinsB01L 3/0262 using touch-off at substrat...View All
