Capillary column chromatography process and system
First Claim
1. A microfluidic circuit for separating components of a fluid sample comprising:
- a first capillary of first etched depth formed in a first region of the circuit adapted to receive the fluid sample;
a second capillary of second etched depth larger than that of the first capillary formed in a second region of the circuit in fluid communication with the first capillary;
a third capillary of third etched depth smaller than that of the second capillary formed in a third region of the circuit in fluid communication with the second capillary;
a solid composition contained within the second capillary capable of effecting separation of the components of the sample;
wherein the solid composition comprises solid particles and the etched depths of the first and third capillary are smaller than the size of the solid particles to retain the particles within a desired containment volume of the second capillary and being sufficiently large to permit passage of the fluid sample therethrough.
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Abstract
A microfluidic system is provided for separating components of many fluid samples in a parallel fashion through an array of capillary conduits. The system includes capillary conduits for receiving fluid samples, and for effecting separation of substituents of the sample by passing the sample through a corresponding array of capillary separation conduits containing a solid separation medium. The microfluidic circuit is made of three or more substrate layers and preferably includes etched channels in different layers that are dimensioned relative to one another to provide for retaining the solid composition within the capillary separation conduits. The system also includes an array of detector flow cells in fluid communication with the capillary separation conduits, and an array of high pressure connectors for connecting discrete capillary tubes to the fluid passages in the microfluidic circuit for introducing and removing the fluid samples from the system. The connections for the capillary tubes have a small footprint, are readily reversible (allowing ease of maintenance and replacement), and can seal against high pressures.
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Citations
9 Claims
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1. A microfluidic circuit for separating components of a fluid sample comprising:
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a first capillary of first etched depth formed in a first region of the circuit adapted to receive the fluid sample;
a second capillary of second etched depth larger than that of the first capillary formed in a second region of the circuit in fluid communication with the first capillary;
a third capillary of third etched depth smaller than that of the second capillary formed in a third region of the circuit in fluid communication with the second capillary;
a solid composition contained within the second capillary capable of effecting separation of the components of the sample;
wherein the solid composition comprises solid particles and the etched depths of the first and third capillary are smaller than the size of the solid particles to retain the particles within a desired containment volume of the second capillary and being sufficiently large to permit passage of the fluid sample therethrough. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
wherein holes extend through the adjacent substrate to provide fluid communication between the first, second and third capillary.
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8. A process for separating and analyzing components of a fluid sample using the microfluidic circuit of claim 1 comprising:
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providing a multi-layer microfluidic circuit formed of at least three glass layers;
introducing the fluid sample into said first capillary formed in a first layer of the microfluidic circuit;
passing the sample from said first capillary to said second capillary formed in a second adjacent layer of the microfluidic circuit;
passing the sample from said second capillary to said third capillary and then to a flow cell in fluid communication with said second and said third capillary; and
providing a detector in association with said flow cell for analyzing the components of the separated fluid sample.
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9. The process of claim 8 wherein said detector is an optical detector.
Specification
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- Resources
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Current AssigneeApplied Biosystems LLC (Thermo Fisher Scientific Incorporated)
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Original AssigneePerseptive Biosystems Incorporated (Ecovyst, Inc.)
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InventorsPaul, Carlton H.
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Primary Examiner(s)Kwok, Helen
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Assistant Examiner(s)POLITZER, JAY L
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Application NumberUS10/061,612Time in Patent Office508 DaysField of Search73/615.2, 73/615.3, 73/234.2, 210/656, 346/7, 422/100, 435/91.1US Class Current73/61.52CPC Class CodesB01J 20/285 based on polymersB01J 2220/54 Sorbents specially adapted ...B01J 2220/82 Shaped bodies, e.g. monolit...B01J 2220/84 CapillariesG01N 2030/528 Monolithic sorbent materialG01N 2030/565 slurry packingG01N 2030/746 detecting along the line of...G01N 2030/8813 biological materialsG01N 30/466 with separation columns in ...G01N 30/50 Conditioning of the sorbent...G01N 30/6004 end piecesG01N 30/6043 in parallelG01N 30/6095 Micromachined or nanomachin...G01N 30/7233 interfaced to liquid or sup...
