| CPC B01F 25/43161 (2022.01) [A61K 9/1682 (2013.01); B01F 25/4323 (2022.01); B01F 25/4331 (2022.01); B01F 33/30 (2022.01); B01F 33/813 (2022.01); B01J 19/0093 (2013.01); B01F 25/43172 (2022.01); B01F 25/431971 (2022.01); B01F 2101/22 (2022.01); B01J 2219/00783 (2013.01); B01J 2219/00822 (2013.01); B01J 2219/00824 (2013.01); B01J 2219/00831 (2013.01); B01J 2219/00833 (2013.01); B01J 2219/00855 (2013.01); B01J 2219/00858 (2013.01); B01J 2219/0086 (2013.01); B01J 2219/00869 (2013.01); B01J 2219/00873 (2013.01); B01J 2219/00889 (2013.01); B01J 2219/00894 (2013.01); B01J 2219/00898 (2013.01); B01J 2219/00986 (2013.01); G01N 2015/0038 (2013.01); G01N 2035/00158 (2013.01)] | 16 Claims |
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1. A system for continuous flow operation of a microfluidic chip, the system comprising:
(1) a microfluidic chip, comprising:
(a) a first inlet configured to receive a first solution;
(b) a second inlet configured to receive a second solution; and
(c) a first mixer, comprising:
(i) a first inlet microchannel in fluid communication with and configured to receive the first solution from the first inlet;
(ii) a second inlet microchannel in fluid communication with and configured to receive the second solution from the second inlet; and
(iii) a mixing microchannel in fluid communication with the first and second inlet microchannels and configured to mix the first solution and the second solution to provide a nanoparticle solution; and
(iv) a mixer outlet in fluid communication with the mixing microchannel and configured to receive the nanoparticle solution from the mixing microchannel;
wherein:
the mixing microchannel is a Dean vortex bifurcating mixer (DVBM) comprising an inlet channel leading into a plurality of toroidal mixing elements arranged in series and including a first toroidal mixing element downstream of the inlet channel, a second toroidal mixing element in fluid communication with the first toroidal mixing element via a first neck region, and a third toroidal mixing element in fluid communication with the second toroidal mixing element via a second neck region;
the first and second neck regions are elongated channels;
the second neck region is disposed at a neck angle of 90 to 150 degrees relative to the first neck region;
the first toroidal mixing element has a first leg channel having a first fluidic impedance and a second leg channel having a second fluidic impedance, and the first fluidic impedance is greater than the second fluidic impedance; and
the second toroidal mixing element has a first leg channel having a third fluidic impedance and a second leg channel having a fourth fluidic impedance, and the third fluidic impedance is greater than the fourth fluidic impedance; and
(d) a chip outlet in fluid communication with the mixer outlet through a nanoparticle solution microchannel;
(2) a first continuous flow fluid driver configured to continuously drive the first solution from a first solution reservoir into the first inlet of the microfluidic chip;
(3) a second continuous flow fluid driver configured to continuously drive the second solution from a second solution reservoir into the second inlet of the microfluidic chip; and
(4) a system outlet in fluid communication with the chip outlet, wherein the system outlet is configured to output the nanoparticle solution.
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